Patents Examined by Tammie K. Heller
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Patent number: 9084901Abstract: Implantable medical devices (IMD) configured for implantation within a recess formed in a cranium of a patient, as well as associated methods, are described. In some embodiments, the IMD includes a top external surface and another adjacent external surface, e.g., a side surface, which are oriented with respect to each other to define an acute angle. A connection module for an electrical lead or catheter may be included on the top external surface. Embodiments of the invention may facilitate implantation of an IMD within a recess formed in the cranium of a patient at a location remote to an incision made in the scalp of the patient.Type: GrantFiled: April 28, 2006Date of Patent: July 21, 2015Assignee: Medtronic, Inc.Inventor: Carl D. Wahlstrand
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Patent number: 9079038Abstract: An implantable medical device having at least one elongated electrical function conductor and an electrode pole connected to the at least one elongated function conductor. The at least one elongated function conductor transmits therapeutic signals or diagnostic signals or both. The electrode pole delivers electrical current or field or sense electrical potentials, or both, in surrounding tissue during use. The implantable medical device includes a sensing device connected to a field-generating electrode pole, a potential-sensing electrode pole, and a reference pole. The sensing device detects generated electrical potentials via the potential-sensing electrode pole in relation to the reference pole, and generates an output signal that represents a detected electrical potential.Type: GrantFiled: November 21, 2011Date of Patent: July 14, 2015Assignee: BIOTRONIK SE & CO. KGInventors: Thomas Doerr, Ingo Weiss
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Patent number: 9078660Abstract: Systems for partitioning a ventricle of a heart include a partitioning device or implant, and an applicator for inserting, repositioning and/or removing the partitioning device. The implant may support the ventricle wall and may reduce the volume of the ventricle. The delivery system for delivering and deploying a partitioning device into a ventricle may include a catheter having a distal coupling element for coupling to a partitioning device in a collapsed configuration; the catheter may also have an expansion member for applying force to the partitioning device to fully expand it into a deployed configuration and to secure or seal it against the ventricle wall.Type: GrantFiled: September 29, 2010Date of Patent: July 14, 2015Assignee: CardioKinetix, Inc.Inventors: Michael P. Boutillette, James R. Kermode, Miles D. Alexander, Alexander Khairkhahan, Serjan D. Nikolic
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Patent number: 9072911Abstract: Various configurations of systems that employ leadless electrodes to provide pacing therapy are provided. In one example, a system that provides multiple sites for pacing of myocardium of a heart includes wireless pacing electrodes that are implantable at sites proximate the myocardium using a percutaneous, transluminal, catheter delivery system. Each of the electrodes contains a source of electrical energy for pacing the myocardium and is adapted to receive electromagnetic energy from a source outside the myocardium. The system also includes a source adapted for placement outside the myocardium and that uses locally measured electrocardiograms to synchronize pacing of the heart by sending electromagnetic commands to the electrodes to pace the myocardium surrounding the electrodes. Also disclosed is various configurations of such systems, wireless electrode assemblies, and delivery catheters for delivering and implanting the electrode assemblies.Type: GrantFiled: June 27, 2013Date of Patent: July 7, 2015Assignee: Boston Scientific Scimed, Inc.Inventors: Roger Hastings, William J. Drasler, Daniel M. Lafontaine, Anupama Sadasiva, Scott R. Smith
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Patent number: 9061150Abstract: The present invention is a saliency-based apparatus and methods for visual prostheses. A saliency-based component processes video data output by a digital signal processor before the video data are input to the retinal stimulator. In a saliency-based method, an intensity stream is extracted from an input image, feature maps based on the intensity stream are developed, plural most salient regions of the input image are detected and one of the regions is selected as a highest saliency region.Type: GrantFiled: March 6, 2008Date of Patent: June 23, 2015Assignee: Second Sight Medical Products, Inc.Inventors: Robert J. Greenberg, Alan Matthew Horsager, Mark S. Humayun, Kelly H. McClure, Matthew J. McMahon, Peter Meilstrup, Neha Jagdish Parikh, Arup Roy, James D. Weiland, Chunhong Zhou
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Patent number: 9047510Abstract: A method of determining information concerning the identity of an individual comprising measuring at least one biometric of the individual comprising at least one bio-potential waveform generated by the individual's heart, extracting a plurality of characteristics from the bio-potential waveform comprising any of an approximate location of a point of a P peak, an approximate location of a Q-point of a QRS peak system, an approximate location of an R-point of a QRS peak system, an approximate location of an S-point of a QRS peak system, an approximate location of a point of a T peak, using the characteristics to calculate at least one waveform parameter, comparing at least one calculated waveform parameter with at least one previously-acquired waveform parameter to generate a score, and using the score to determine information concerning the identity of the individual.Type: GrantFiled: March 7, 2008Date of Patent: June 2, 2015Assignee: INTELESENS LIMITEDInventors: James Andrew McLaughlin, John McCune Anderson, Kenneth Anthony Kearney
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Patent number: 9042995Abstract: Implantable devices and related systems utilize power management features in conjunction with a recharge circuit that includes a coil and capacitance. The reactance such as the capacitance and/or inductance may be variable such that in the event of an overcharge condition, the reactance may be varied to change the resonant frequency of the circuit of the coil from the recharge frequency to another frequency to reduce the power being received. Other power management features may additionally or alternatively be employed. For instance, the device may send an uplink telemetry signal to an external device to request that recharge power be decreased. The device may switch additional resistance into the circuit of the coil to reduce the Q of the circuit. As another example, the device may clamp the circuit of the coil to ground.Type: GrantFiled: February 3, 2010Date of Patent: May 26, 2015Assignee: MEDTRONIC, INC.Inventors: David A. Dinsmoor, Joel A. Anderson, Timothy Denison
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Patent number: 9023090Abstract: A light generating circuit is implanted in a subject's body and aimed at a target region such as a tumor. A photosensitizer is introduced into the target region, and an AC electric field is induced in the region. The field causes the light generating circuit to generate light, which activates the photosensitizer; and at certain field strengths and frequencies, the field itself has a beneficial effect. The beneficial effects of the field and the activated photosensitizer are thereby obtained simultaneously.Type: GrantFiled: March 7, 2013Date of Patent: May 5, 2015Assignee: Novocure LimitedInventor: Yoram Palti
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Patent number: 9023091Abstract: A light generating circuit is implanted in a subject's body and aimed at a target region such as a tumor. A photosensitizer is introduced into the target region, and an AC electric field is induced in the region. The field causes the light generating circuit to generate light, which activates the photosensitizer; and at certain field strengths and frequencies, the field itself has a beneficial effect. The beneficial effects of the field and the activated photosensitizer are thereby obtained simultaneously.Type: GrantFiled: March 7, 2013Date of Patent: May 5, 2015Assignee: Novocure LimitedInventor: Yoram Palti
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Patent number: 9020610Abstract: Electrode systems that may be used with implantable medical devices such as a pacemaker, in addition to one or more conventional electrodes, include a shunt electrode. Under ordinary conditions, the shunt electrode has very little effect upon the operation of the electrode system. When high frequency current is delivered to the electrode system, however, the electrode system shunts a large share of the high frequency current to the shunt electrode. The shunt electrode, which includes a conducting material surrounded by an insulating layer, dissipates heat that may be caused by the high frequency current.Type: GrantFiled: June 23, 2006Date of Patent: April 28, 2015Assignee: Medtronic, Inc.Inventor: Volkert A. Zeijlemaker
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Patent number: 9020599Abstract: Delivery of peripheral nerve field stimulation (PNFS) in combination with one or more other therapies is described. The other therapy delivered in combination with PNFS may be, for example, a different type of neurostimulation, such as spinal cord stimulation (SCS), or a drug. PNFS and the other therapy may be delivered simultaneously, in an alternating fashion, according to a schedule, and/or selectively, e.g., in response to a request received from a patient or clinician. A combination therapy that includes PNFS may be able to more completely address complex or multifocal pain than would be possible through delivery of either PNFS or other therapies alone. Further, the combination of PNFS with one or more other therapies may reduce the likelihood that neural accommodation will impair the perceived effectiveness PNFS or the other therapies.Type: GrantFiled: December 17, 2013Date of Patent: April 28, 2015Assignee: Medtronic, Inc.Inventors: Ethan A. Rooney, Carl D. Wahlstrand, Gary W. King, Thomas E. Cross, Jr., Kenneth T. Heruth, Paul W. Wacnik, Jeffrey S. Evanson
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Patent number: 9020595Abstract: An embodiment of a baroreflex stimulator comprises a pulse generator to provide a baroreflex stimulation signal through an electrode, and a modulator to modulate the baroreflex stimulation signal based on a circadian rhythm template.Type: GrantFiled: May 19, 2010Date of Patent: April 28, 2015Assignee: Cardiac Pacemakers, Inc.Inventor: Imad Libbus
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Patent number: 9002472Abstract: Methods, apparatuses, and software for operating such apparatuses, for neuromodulation in a live mammalian subject, such as a human patient, provide for applying electrical energy to a target site in the nervous system of the subject using a signal comprising a series of pulses, wherein the inter-pulse intervals are varied using the output of a deterministic, non-linear, dynamical system comprising one or more system control parameters. In certain embodiments, the target site may be a site in the brain involved in generalized CNS (central nervous system) arousal. The dynamical system may be capable of exhibiting chaotic behavior.Type: GrantFiled: February 26, 2010Date of Patent: April 7, 2015Assignees: Intelect Medical, Inc., The Rockefeller UniversityInventors: Scott Kokones, Bradford Curtis Fowler, Donald Pfaff, Amy Wells Quinkert
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Patent number: 8996136Abstract: An implantable medical device, which is connected or is to be connected to at least two elongated electric function conductors for the transmission of treatment signals or diagnostic signals or both, and at least one electrode pole connected to at least one of the function conductors, via which electrode pole electric current can be delivered in the case of use to surrounding tissue of the body or with which electric potentials can be sensed in the surrounding tissue or both. Includes a wave transfer module connected to the function conductor and which is embodied to transform waves arriving via a function conductor and to switch them as transformed waves onto another function conductor or the same function conductor in such a controlled manner that the waves are destructively superimposed at the electrode pole.Type: GrantFiled: November 21, 2011Date of Patent: March 31, 2015Assignee: Biotronik SE & Co. KGInventor: Ingo Weiss
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Patent number: 8996133Abstract: The methods and apparatus for lead placement on a surface of the heart are employed using an elongated body having proximal and distal end portions. The body defines a lead receiving passageway extending between a proximal inlet and a distal outlet for receiving a lead therethrough for contact with the heart surface. The elongated body is adapted for insertion between a pericardium and an epicardial surface. At least a portion of the body may have a non-circular cross-sectional shape adapted to retain the body orientation between the pericardium and the epicardial surface.Type: GrantFiled: April 30, 2007Date of Patent: March 31, 2015Assignee: SentreHEART, Inc.Inventors: Aaron V. Kaplan, Kevin F. Hahnen
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Patent number: 8989840Abstract: An implantable stimulation system comprises a stimulator for generating electrical stimulation and a conductive stimulation lead having a proximal end electrically coupled to the stimulator, wherein at least a first component of the impedance looking into the stimulator is substantially matched to the impedance of the stimulation lead. At least one distal stimulation electrode is positioned proximate the distal end of the stimulation lead.Type: GrantFiled: March 2, 2005Date of Patent: March 24, 2015Assignee: Medtronic, Inc.Inventors: Piotr Przybyszewski, Carl D. Wahlstrand, Timothy J. Davis, Gregory A. Hrdlicka, James M. Olsen
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Patent number: 8983606Abstract: An implantable medical device (IMD) adjusts a sensing configuration of a sensing module prior to or immediately subsequent to entering an environment having an external source that generates the interfering signal. The IMD may, for example, adjust a sampling frequency, resolution, input range, gain, bandwidth, filtering parameters, or a combination of these or other sensing parameters of the sensing module. These adjustments enable the sensing module to obtain a more detailed representation of the sensed signals, including the noise components of the sensed signals caused by the interfering signal. Without having an adequate representation of the noise components of the sensed signal, it is difficult to separate the noise components of the sensed signal from the cardiac electrical signal.Type: GrantFiled: October 29, 2010Date of Patent: March 17, 2015Assignee: Medtronic, Inc.Inventor: Michael L. Ellingson
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Patent number: 8983619Abstract: A system and method are described for testing communication through a patient during implantation using telemetry coupling electrodes on a delivery catheter. In one example, at least two telemetry coupling electrodes may be placed on or within a delivery catheter to test conductive communication with external body electrodes during implantation. In some instances, the telemetry coupling electrodes of the delivery catheter may approximate the spacing of telemetry electrodes on an IMD. In this manner, testing conductively coupled communication with telemetry coupling electrodes of the catheter may be used to mimic the telemetry electrodes on the IMD and determine a target position and/or orientation of an electrode or electrodes of the IMD for successful conductive communication through the body.Type: GrantFiled: March 26, 2010Date of Patent: March 17, 2015Assignee: Medtronic, Inc.Inventors: Can Cinbis, H. Toby Markowitz
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Patent number: 8983588Abstract: A method of analysis of medical signals is presented which provides useful clinical information concerning the state of the myocardium during cardiopulmonary resuscitation (CPR). The analysis during CPR can be used to (i) identify the underlying rhythm, (ii) provide a measure of the efficacy of CPR, and (iii) to predict the outcome from a defibrillation shock.Type: GrantFiled: February 10, 2006Date of Patent: March 17, 2015Assignee: Cardiodigital LimitedInventors: Paul Stanley Addison, James Nicholas Watson
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Patent number: 8977368Abstract: An implantable medical device having at least one first and one second longitudinally extended electrical functional conductor to transmit therapeutic signals or diagnostic signals or both. The implantable medical device includes one electrode pole connected to the functional conductor, wherein electrical current is delivered to the surrounded bodily tissue using the electrode pole. Electrical potentials may be sensed in the surrounding tissue using the electrode pole, such that the two electrical functional conductors are inductively coupled for defined resonant frequencies and such that RF energy of a first functional conductor is diverted to the second functional conductor. The RF energy is delivered to the surrounding tissue via the second functional conductor and via an electrode pole connected to the second functional conductor.Type: GrantFiled: November 21, 2011Date of Patent: March 10, 2015Assignee: Biotronik SE & Co. KGInventors: Thomas Doerr, Ingo Weiss