Patent application number | Description | Published |
20080249463 | Multi-Electrode Irrigated Balloon Catheter - A fluid delivery catheter configured to allow optimal fluid distribution through each electrode by varying the diameter of a catheter lumen is disclosed. Uniform or different fluid flow rates through longitudinally spaced apart elution holes may be achieved. Exemplary fluids for use with the catheter include a cooling fluid, a therapeutic fluid, and a medication. | 10-09-2008 |
20080249522 | Irrigated Catheter with Improved fluid flow - An irrigated catheter with uniform cooling and/or uniform fluid distribution in longitudinally spaced apart elution holes by varying the diameter of a fluid delivery lumen. A number of elution holes are provided in a tip region of a catheter body, and these elution holes are in fluid communication with the lumen through ducts. The fluid deliver lumen has may provided with a flow constrictor to restrict flow of fluid towards the distal region. | 10-09-2008 |
20080294158 | ABLATION CATHETER WITH FLEXIBLE TIP AND METHODS OF MAKING THE SAME - A flexible tip electrode for an ablation catheter and methods for making the same are disclosed. The electrode has a surface configuration that improves flexibility of the electrode. Also, the surface configuration may allow electrode lengthwise freedom of movement, such that the electrode may be shortened when pressed against the target tissue. A coil may be located in the electrode to bias the electrode toward a predetermined configuration. | 11-27-2008 |
20100152731 | FLEXIBLE TIP CATHETER WITH EXTENDED FLUID LUMEN - A lumen extension member is provided for a catheter having a catheter body and an elongate electrode coupled to the catheter body. The elongate electrode defines an electrode lumen extending therethrough. The lumen extension member is positioned within the electrode lumen and is coupled to the catheter body. The lumen extension member includes a tubular member including a sidewall and at least one opening that extends through the sidewall. | 06-17-2010 |
20100286684 | IRRIGATED ABLATION CATHETER WITH MULTIPLE SEGMENTED ABLATION ELECTRODES - In one embodiment, an irrigated catheter ablation apparatus comprises an elongated body having a distal end, a proximal end, and at least one fluid lumen extending longitudinally therein; and a plurality of segmented ablation electrodes on a distal portion of the elongated body. The electrodes are spaced from the proximal end and from the distal end of the elongated body by electrically nonconductive segments. The electrodes are spaced from each other longitudinally by electrically nonconductive segments. For each electrode that is longitudinally disposed next to one of the nonconductive segments, an edge is formed between an electrode end of the electrode and a nonconductive segment end of the nonconductive segment. A plurality of elution holes are disposed adjacent to the edges. A plurality of ducts establish fluid communication between the elution holes and the fluid lumen. | 11-11-2010 |
20110118582 | Magnetically Guided Catheter With Flexible Tip - A catheter includes a flexible tubing having a proximal end and a distal end. The catheter also includes an electrode assembly attached to the distal end of the flexible tubing and including a first magnet therein. The electrode assembly including an electrically conductive tip electrode and an electrically nonconductive coupler which is connected between the tip electrode and the distal end of the flexible tubing. The electrically conductive tip electrode comprises a hollow elongated tip electrode including a sidewall provided with one or more elongated gaps extending through the sidewall. The one or more elongated gaps providing flexibility in the sidewall for bending movement of the tip electrode relative to a longitudinal axis of the catheter body. The first magnet is responsive to an external magnetic field to selectively position and guide the electrode assembly within a body of a patient. | 05-19-2011 |
20110118726 | ASSEMBLY OF STAGGERED ABLATION ELEMENTS - An ablation catheter comprises a catheter body extending longitudinally between a proximal end and a distal end along a longitudinal axis; and an ablation element assembly comprising ablation elements connected to the catheter body, each ablation element to be energized to produce an ablation zone. The ablation elements are distributed in a staggered configuration such that the ablation zones of the ablation elements span one or more open arc segments around the longitudinal axis, but the ablation zones of all ablation elements projected longitudinally onto any lateral plane which is perpendicular to the longitudinal axis span a substantially closed loop around the longitudinal axis. Since the ablation zones do not form a closed loop, the risk of renal artery/vein stenosis is reduced or eliminated. Since the ablation zones of all ablation elements projected longitudinally onto any lateral plane span a substantially closed loop, substantially complete renal denervation is achieved. | 05-19-2011 |
20110137298 | ULTRASOUND ABLATION APPARATUS WITH DISCRETE STAGGERED ABLATION ZONES - An ablation apparatus comprises an ultrasonic transducer which includes a piezoelectric element having a cylindrical shape; a plurality of external electrodes disposed on the outer surface of the piezoelectric element; and at least one internal electrode disposed on the inner surface of the piezoelectric element. The at least one internal electrode provides corresponding internal electrode portions that are disposed opposite the external electrodes with respect to the piezoelectric element, the external electrodes and the at least one internal electrode to be energized to apply an electric field across the piezoelectric element. The ultrasonic ablation zones of the external electrodes are distributed in a staggered configuration so as to span one or more open arc segments around the longitudinal axis, and the ultrasound ablation zones of all external electrodes projected longitudinally onto any lateral plane which is perpendicular to the longitudinal axis span a substantially closed loop around the longitudinal axis. | 06-09-2011 |
20110213231 | Bendable catheter arms having varied flexibility - In various embodiments, a catheter comprising an expandable electrode assembly or basket is provided. In specific embodiments, the basket is particularly useful for mapping electrical activity at one or more locations within the heart. The basket can comprise a plurality of bendable or deflectable arms. At least one of the arms may have varied flexibility over its length in the form of one or more discontinuities of stiffness or flexibility at an elbow region or other variances in flexibility over the arm's length. Such variance in flexibility may allow the arm to assume a different bent configuration or respond to external factors more positively than possible with an arm having a static or near static flexibility or stiffness over its length. | 09-01-2011 |
20110288392 | Kit for Non-Invasive Electrophysiology Procedures and Method of its Use - An electrophysiology catheter for use with a steerable introducer sheath includes a flexible catheter body having a proximal end and a distal end and at least one hollow elongate tip electrode disposed at the distal end of the catheter body. The hollow elongate tip electrode includes a sidewall having at least one elongate gap that provides flexibility allowing the tip electrode to bend relative to a longitudinal axis of the catheter body. The catheter body is an independent, non-steerable structure, and can be moved via movement of the steerable introducer through which it is introduced into a patient. | 11-24-2011 |
20110313417 | ABLATION CATHETER HAVING FLEXIBLE TIP WITH MULTIPLE FLEXIBLE ELECTRODE SEGMENTS - A catheter apparatus comprises an elongated catheter body having a distal end, a proximal end, and at least one fluid lumen extending longitudinally therein; and a plurality of flexible electrode segments on a distal portion of the catheter body adjacent the distal end, each pair of neighboring flexible electrode segments being spaced from each other longitudinally by a corresponding electrically nonconductive segment. Each flexible electrode segment comprises a sidewall provided with one or more elongated stiffness reductions extending through the sidewall, the one or more elongated stiffness reductions providing flexibility in the sidewall for bending movement relative to a longitudinal axis of the catheter body. The electrically nonconductive segment is substantially smaller in length than each of the corresponding pair of neighboring flexible electrode segments. | 12-22-2011 |
20120010490 | Medical devices having flexible electrodes mounted thereon - Medical devices and systems comprising medical devices are provided. The kit includes a catheter-introducer comprising a shaft having a major lumen sized to receive a second medical device and an electrode mounted thereon and a catheter comprising an elongate body and at least two flexible electrode segments on the distal end. The shaft includes an inner liner and outer layer. The system comprises a first medical device having a shaft and an electroanatomical system imaging element mounted thereon and a second medical device having an elongate body and at least two flexible electrodes mounted on the distal end. The shaft has a major lumen sized to receive the second medical device. The system further comprises an electroanatomical navigation system configured to receive signals from the electroanatomical system imaging element and to determine a position of the electroanatomical system imaging element and/or monitor electrophysiological data. | 01-12-2012 |
20120239031 | ABLATION CATHETER WITH FLEXIBLE TIP - A flexible tip electrode for an ablation catheter is disclosed. The catheter includes a catheter body and a hollow elongate tip electrode disposed at a distal end of the catheter body. The electrode includes a sidewall provided with one or more elongate gaps extending therethrough. The one or more elongate gaps providing flexibility in the sidewall for bending movement of the tip electrode relative to a longitudinal axis of the catheter body. | 09-20-2012 |
20120290024 | TRANSVENOUS RENAL NERVE MODULATION FOR TREATMENT OF HYPERTENSION, CARDIOVASCULAR DISORDERS, AND CHRONIC RENAL DISEASES - A transvenous renal nerve modulation system comprises: a blood pressure monitoring device to be implanted in a patient to monitor the patient's blood pressure; one or more transvenous renal nerve modulation leads to be implanted in one or more renal blood vessels of the patient; a pulse generator coupled to the transvenous renal nerve modulation leads to deliver electrical pulses to the one or more transvenous renal nerve modulation leads for modulating renal nerves of the patient; and a control unit coupled to the blood pressure monitoring device and the pulse generator to control delivery of the electrical pulses by the pulse generator based on the patient's blood pressure from the blood pressure monitoring device. The pulse generator delivers high frequency pulses of greater than about 10 Hz to the transvenous renal nerve modulation leads if the patient's blood pressure is greater than a high blood pressure threshold. | 11-15-2012 |
20120290053 | RENAL NERVE STIMULATION LEAD, DELIVERY SYSTEM, AND METHOD - A lead for nerve modulation comprises an elongated body which includes a proximal end, a distal portion having a distal end, and an intermediate portion disposed between the proximal end and the distal portion. The distal portion includes a distal portion anchoring mechanism to anchor the distal portion to a first biological cavity of a patient. The intermediate portion includes an intermediate portion anchoring mechanism to anchor the intermediate portion to a second biological cavity of the patient. The intermediate portion anchoring mechanism is larger in lateral dimension than and is spaced from the distal portion anchoring mechanism. The distal portion and/or the intermediate portion includes a plurality of modulation electrodes. The distal portion anchoring mechanism and/or the intermediate portion anchoring mechanism is configured to position the modulation electrodes to contact tissue of the patient at multiple locations. | 11-15-2012 |
20130085479 | Catheter having Flexible Tip with Multiple Flexible Segments - A catheter apparatus includes an elongated body having a distal portion including a distal end, a plurality of flexible segments, and at least one intermediate segment that is less flexible than the flexible segments. Adjacent flexible segments are spaced from each other longitudinally by the at least one intermediate segment. Each of the flexible segments include a sidewall having at least one elongated gap extending at least partially therethrough and forming interlocking members. The at least one intermediate segment is shorter than the flexible segments. | 04-04-2013 |
20130310825 | IRRIGATED CATHETER WITH IMPROVED FLUID FLOW - An irrigated catheter with uniform cooling and/or uniform fluid distribution in longitudinally spaced apart elution holes by varying the diameter of a fluid delivery lumen. A number of elution holes are provided in a tip region of a catheter body, and these elution holes are in fluid communication with the lumen through ducts. The fluid delivery lumen may be provided with a flow constrictor to restrict flow of fluid towards the distal region. | 11-21-2013 |
20140025068 | ABLATION CATHETER WITH FLEXIBLE TIP - A flexible tip electrode for an ablation catheter is disclosed. The catheter includes a catheter body and a hollow elongate tip electrode disposed at a distal end of the catheter body. The electrode includes a sidewall provided with one or more elongate gaps extending therethrough. The one or more elongate gaps providing flexibility in the sidewall for bending movement of the tip electrode relative to a longitudinal axis of the catheter body. | 01-23-2014 |
20140107639 | RENAL DENERVATION SYSTEM AND METHOD - A method for denervation comprises introducing a distal portion of a catheter through an interior of a vessel of a patient to a location at or proximate one of a renal pelvis or a calyx. The catheter includes an elongated catheter body extending longitudinally between a proximal end and a distal end. The catheter body includes the distal portion at the distal end and a catheter lumen from the proximal end to the distal end. Energy is delivered from the distal portion to cause renal denervation, for example, by denervating at least some tissue proximate at least one of the renal pelvis or a renal vessel from a location at or proximate the renal pelvis or the calyx from a location at or proximate the calyx. | 04-17-2014 |
20140142408 | Basket catheter having multiple electrodes - Embodiments of the present invention provide a catheter that comprises an elongated catheter body ( | 05-22-2014 |
20140148674 | Bendable catheter arms having varied flexibility - In various embodiments, a catheter comprising an expandable electrode assembly or basket is provided. In specific embodiments, the basket is particularly useful for mapping electrical activity at one or more locations within the heart. The basket can comprise a plurality of bendable or deflectable arms. At least one of the arms may have varied flexibility over its length in the form of one or more discontinuities of stiffness or flexibility at an elbow region or other variances in flexibility over the arm's length. Such variance in flexibility may allow the arm to assume a different bent configuration or respond to external factors more positively than possible with an arm having a static or near static flexibility or stiffness over its length. | 05-29-2014 |
20140207136 | MULTIPLE STAGGERED ELECTRODES CONNECTED VIA FLEXIBLE JOINTS - An ablation catheter includes an electrode assembly having a plurality of longitudinally spaced sets of spines, which include a distal set of spines each having a distal end connected to a spine distal junction and a proximal end connected to a first joint, and a proximal set of spines each having a proximal end connected to the distal end of the catheter body and a distal end connected to the first joint or a second joint. The spines include electrodes. Zero or more additional sets of spines are connected between the distal set and proximal set, such that neighboring sets of spines are connected by a joint. Each joint is flexible to permit bending along the longitudinal axis. The electrode assembly is movable between a collapsed arrangement and an expanded arrangement with the intermediate segments of the spines in the expanded arrangement moving outwardly with respect to the collapsed arrangement. | 07-24-2014 |
20140303619 | IRRIGATED CATHETER - A fluid delivery catheter configured to allow optimal fluid distribution through each electrode by varying the diameter of a catheter lumen is disclosed. Uniform or different fluid flow rates through longitudinally spaced apart elution holes may be achieved. Exemplary fluids for use with the catheter include a cooling fluid, a therapeutic fluid, and a medication. | 10-09-2014 |
20140330269 | IRRIGATED FLEXIBLE ABLATION CATHETER - A flexible tip electrode for an ablation catheter is disclosed. The catheter includes a catheter body and a hollow elongate tip electrode disposed at a distal end of the catheter body. The electrode includes a sidewall provided with one or more elongate gaps extending therethrough. The one or more elongate gaps providing flexibility in the sidewall for bending movement of the tip electrode relative to a longitudinal axis of the catheter body. | 11-06-2014 |
Patent application number | Description | Published |
20110024889 | PACKAGE ARCHITECTURE - A packaging architecture for an integrated circuit is provided. The architecture includes a printed circuit board and a package substrate disposed on the printed circuit board. A first integrated circuit is disposed on a first surface of the package substrate. The package substrate is capable of supporting a second integrated circuit. The second integrated circuit is in electrical communication with a plurality of pads disposed on the first surface of the package substrate. Each of the plurality of pads is in electrical communication with the printed circuit board without communicating with the first integrated circuit. | 02-03-2011 |
20110025359 | BOND AND PROBE PAD DISTRIBUTION - An integrated circuit (IC) that includes a plurality of bond pads disposed on a surface of the IC and a plurality of probe pads disposed on the surface of the IC is provided. Each of the plurality of probe pads is in electrical communication with corresponding bond pads. The plurality of probe pads are linearly configured across the surface. In one embodiment, the probe pads are disposed along a diagonal of the surface of the die defined between opposing vertices of the die surface. In another embodiment, multiple rows of linearly disposed probe pads are provided on the surface. | 02-03-2011 |
20120159779 | INTEGRATED CIRCUIT PACKAGE ARCHITECTURE - A packaging architecture for an integrated circuit is provided. The architecture includes a printed circuit board and a package substrate disposed on the printed circuit board. A first integrated circuit is disposed on a first surface of the package substrate. The package substrate is capable of supporting a second integrated circuit. The second integrated circuit is in electrical communication with a plurality of pads disposed on the first surface of the package substrate. Each of the plurality of pads is in electrical communication with the printed circuit board without communicating with the first integrated circuit. | 06-28-2012 |
20140239483 | HEAT SPREADING IN MOLDED SEMICONDUCTOR PACKAGES - A molded semiconductor package comprises a substrate, a semiconductor die mounted on the substrate, a molding compound encircling the die on the substrate, and one or more heat conductors in the molding compound that are thermally coupled to the substrate. Advantageously, the heat conductors are mounted in the molding compound near one or more of the corners of the die. The package may also include a lid. The heat conductors produce a more uniform distribution of heat in the substrate. The package is assembled by mounting the die on the substrate, mounting the heat conductors on the substrate and applying the molding compound to the substrate, the die, and the heat conductors mounted on the substrate. For packages that use a lid, the lid is then secured to the package and coupled to the heat conductors. | 08-28-2014 |
20140239487 | HEAT PIPE IN OVERMOLDED FLIP CHIP PACKAGE - The present invention is an improvement in a molded semiconductor package and the method for its manufacture. The package comprises a substrate, a semiconductor die mounted on the substrate, a molding compound encircling the die on the substrate, a lid on the molding compound, and a heat pipe extending between the semiconductor die and the lid. Preferably, the heat pipe is formed so that it encircles the die. The package is assembled by mounting the die on the substrate, applying the molding compound to the substrate while a channel is formed in the molding compound adjacent the semiconductor die, inserting a heat pipe material in the channel, and mounting the lid on the molding compound and the heat pipe material. | 08-28-2014 |