Patents by Inventor Randy Westlund
Randy Westlund has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20160136433Abstract: A method for allowing cardiac signals to be sensed and pacing pulse vectors to be delivered between two or more electrodes. In one embodiment, cardiac signals are sensed and pacing pulse vectors are delivered between at least one of a first left ventricular electrode and a second left ventricular electrode. Alternatively, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrodes and a first supraventricular electrode. In addition, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrode, the first supraventricular electrode and a conductive housing. In an additional embodiment, a first right ventricular electrode is used to sense cardiac signals and provide pacing pulses with different combinations of the first and second left ventricular electrodes, the first supraventricular electrode and the housing.Type: ApplicationFiled: January 25, 2016Publication date: May 19, 2016Inventors: Jeffrey E. Stahmann, Bruce Alan Tockman, Randy Westlund, Rene H. Wentkowski, Russell E. Anderson
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Patent number: 9278221Abstract: A method for allowing cardiac signals to be sensed and pacing pulse vectors to be delivered between two or more electrodes. In one embodiment, cardiac signals are sensed and pacing pulse vectors are delivered between at least one of a first left ventricular electrode and a second left ventricular electrode. Alternatively, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrodes and a first supraventricular electrode. In addition, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrode, the first supraventricular electrode and a conductive housing. In an additional embodiment, a first right ventricular electrode is used to sense cardiac signals and provide pacing pulses with different combinations of the first and second left ventricular electrodes, the first supraventricular electrode and the housing.Type: GrantFiled: May 29, 2014Date of Patent: March 8, 2016Assignee: Cardiac Pacemakers, Inc.Inventors: Jeffrey E. Stahmann, Bruce Alan Tockman, Randy Westlund, Rene H. Wentkowski, Russell E. Anderson
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Publication number: 20140277236Abstract: A method for allowing cardiac signals to be sensed and pacing pulse vectors to be delivered between two or more electrodes. In one embodiment, cardiac signals are sensed and pacing pulse vectors are delivered between at least one of a first left ventricular electrode and a second left ventricular electrode. Alternatively, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrodes and a first supraventricular electrode. In addition, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrode, the first supraventricular electrode and a conductive housing. In an additional embodiment, a first right ventricular electrode is used to sense cardiac signals and provide pacing pulses with different combinations of the first and second left ventricular electrodes, the first supraventricular electrode and the housing.Type: ApplicationFiled: May 29, 2014Publication date: September 18, 2014Applicant: Cardiac Pacemakers, Inc.Inventors: Jeffrey E. Stahmann, Bruce Alan Tockman, Randy Westlund, Rene H. Wentkowski, Russell E. Anderson
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Patent number: 8798744Abstract: A method for allowing cardiac signals to be sensed and pacing pulse vectors to be delivered between two or more electrodes. In one embodiment, cardiac signals are sensed and pacing pulse vectors are delivered between at least one of a first left ventricular electrode and a second left ventricular electrode. Alternatively, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrodes and a first supraventricular electrode. In addition, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrode, the first supraventricular electrode and a conductive housing. In an additional embodiment, a first right ventricular electrode is used to sense cardiac signals and provide pacing pulses with different combinations of the first and second left ventricular electrodes, the first supraventricular electrode and the housing.Type: GrantFiled: March 30, 2011Date of Patent: August 5, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Jeffrey E. Stahmann, Bruce Tockman, Randy Westlund, Rene H. Wentkowski, Russell E. Anderson
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Patent number: 8498721Abstract: A lead having a pre-formed biased portion is adapted for implantation with a body vessel and for connection to a signal generator. The lead is constructed and arranged so that when it is implanted, the electrodes are biased toward a vessel wall by the preformed biased portion, which operates to fixate the lead against the vessel wall.Type: GrantFiled: October 3, 2011Date of Patent: July 30, 2013Assignee: Cardiac Pacemakers, Inc.Inventors: Avram Scheiner, Ronald W. Heil, Jr., Peter T. Kelley, Bruce Tockman, Randy Westlund, Jay A. Warren, Christina Repasky, Lyle A. Bye, Brian D. Soltis
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Patent number: 8483823Abstract: An embodiment includes a main lead assembly having a proximal portion adapted for connection to a device and a distal portion adapted for placement in a coronary sinus, the distal portion terminating in a distal end for placement proximal a left ventricle. Additionally, the main lead assembly includes a left ventricular electrode located at its distal end which is adapted to deliver cardiac resynchronization therapy to reduce ventricular wall stress. The main lead assembly also includes a fat pad electrode disposed along the main lead assembly a distance from the distal end to position the fat pad electrode proximal to at least one parasympathetic ganglia located in a fat pad bounded by an inferior vena cava and a left atrium. The fat pad electrode is adapted to stimulate the parasympathetic ganglia to reduce ventricular wall stress.Type: GrantFiled: October 12, 2010Date of Patent: July 9, 2013Assignee: Cardiac Pacemakers, Inc.Inventors: Imad Libbus, Julio C. Spinelli, Randy Westlund, Julia Moffitt, Sophia H. Wang
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Patent number: 8406877Abstract: Systems and methods for steering one or more stimulation fields to a selected nerve target, thereby optimizing one or a combination of low stimulation thresholds, desired therapy outcomes, or a minimization of adverse stimulation side-effects. An array of electrodes disposed, at least in part, on two or more neural stimulation leads are used for steering the stimulation fields to the selected nerve target and are positioned adjacent the selected target. The stimulation may be titrated based on, among other things, a detected physiologic response to the applied stimulation.Type: GrantFiled: March 19, 2007Date of Patent: March 26, 2013Assignee: Cardiac Pacemakers, Inc.Inventors: David J. Smith, Randy Westlund, Imad Libbus
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Patent number: 8369943Abstract: An implantable neural stimulation system includes an implantable medical device having a neural stimulation circuit and at least one implantable lead configured to allow one or more stimulation electrodes to be placed in one or more lymphatic vessels of a patient, such as the patient's thoracic duct and/or vessels branching from the thoracic duct. Neural stimulation pulses are delivered from the implantable medical device to one or more target regions adjacent to the thoracic duct or the vessels branching from the thoracic duct through the one or more stimulation electrodes.Type: GrantFiled: October 22, 2009Date of Patent: February 5, 2013Assignee: Cardiac Pacemakers, Inc.Inventors: Allan C. Shuros, Randy Westlund, Anthony V. Caparso
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Patent number: 8290584Abstract: A neural stimulation system delivers neural stimulation to the vagus nerve and senses a signal indicative of laryngeal activity resulting from the neural stimulation. The signal indicative of laryngeal activity is used, for example, to guide electrode placement, determine stimulation threshold, detect lead/electrode problems, detect neural injury, and monitor healing processing following the electrode placement inside the body of a patient.Type: GrantFiled: August 31, 2010Date of Patent: October 16, 2012Assignee: Cardiac Pacemakers, Inc.Inventors: Randy Westlund, Anthony V. Caparso, Mark Bly
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Publication number: 20120215294Abstract: A lead having a pre-formed biased portion is adapted for implantation with a body vessel and for connection to a signal generator. The lead is constructed and arranged so that when it is implanted, the electrodes are biased toward a vessel wall by the preformed biased portion, which operates to fixate the lead against the vessel wall.Type: ApplicationFiled: October 3, 2011Publication date: August 23, 2012Inventors: Avram Scheiner, Ronald W. Heil, Peter T. Kelley, Bruce Tockman, Randy Westlund, Jay A. Warren, Christina Repasky, Lyle A. Bye, Brian D. Soltis
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Patent number: 8224462Abstract: Medical lead systems utilizing electromagnetic bandstop filters are provide which can be utilized in a magnetic resonance imaging (MRI) environment for patients who have implanted medical devices. The medical lead system includes an implanted lead having at least one bandstop filter associated therewith, for attenuating current flow through the lead over a range of frequencies. The bandstop filter has an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz. The values of capacitance and inductance of the bandstop filter are selected such that the bandstop filter is resonant at a selected center frequency. Preferably, the bandstop filter has an overall circuit Q wherein the resultant 10 dB bandwidth is at least 10 kHz. Such bandstop filters are backwards compatible with known implantable deployment systems and extraction systems.Type: GrantFiled: December 6, 2011Date of Patent: July 17, 2012Assignee: Greatbatch Ltd.Inventors: Randy Westlund, Robert A. Stevenson, Christine A. Frysz, Warren S. Dabney, Henry R. Halperin
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Patent number: 8155760Abstract: Medical lead systems utilizing electromagnetic bandstop filters are provide which can be utilized in a magnetic resonance imaging (MRI) environment for patients who have implanted medical devices. The medical lead system includes an implanted lead having at least one bandstop filter associated therewith, for attenuating current flow through the lead over a range of frequencies. The bandstop filter has an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz. The values of capacitance and inductance of the bandstop filter are selected such that the bandstop filter is resonant at a selected center frequency. Preferably, the bandstop filter has an overall circuit Q wherein the resultant 10 dB bandwidth is at least 10 kHz. Such bandstop filters are backwards compatible with known implantable deployment systems and extraction systems.Type: GrantFiled: February 14, 2011Date of Patent: April 10, 2012Assignee: Greatbatch Ltd.Inventors: Randy Westlund, Robert A. Stevenson, Christine A. Frysz, Warren S. Dabney, Henry R. Halperin
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Publication number: 20120083864Abstract: Medical lead systems utilizing electromagnetic bandstop filters are provide which can be utilized in a magnetic resonance imaging (MRI) environment for patients who have implanted medical devices. The medical lead system includes an implanted lead having at least one bandstop filter associated therewith, for attenuating current flow through the lead over a range of frequencies. The bandstop filter has an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz. The values of capacitance and inductance of the bandstop filter are selected such that the bandstop filter is resonant at a selected center frequency. Preferably, the bandstop filter has an overall circuit Q wherein the resultant 10 dB bandwidth is at least 10 kHz. Such bandstop filters are backwards compatible with known implantable deployment systems and extraction systems.Type: ApplicationFiled: November 17, 2011Publication date: April 5, 2012Applicant: GREATBATCH LTD.Inventors: Randy Westlund, Robert A. Stevenson, Christine A. Frysz, Warren S. Dabney
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Patent number: 8150535Abstract: Implantable cardiac monitoring and stimulation methods and devices with epicardial leads having sensor feedback. A fixed or extendable/retractable sensor may be displaceable within the lead's lumen and configured to sense the presence of an anatomical feature or physiological parameter of cardiac tissue in proximity with the lead body's distal end. The sensor may include an ultrasonic sensing element, a perfusion sensor, a photoplethysmographic sensor, or a blood oximetry sensor. Methods of determining suitability for implanting a lead involve the steps of accessing an epicardial surface of the heart, and moving the cardiac lead to an implant site at the epicardial surface. A transmitted signal is directed at the implant site. A reflected signal is received, indicative of the presence of a blood vessel at the implant site. A determination may be made to determine whether the implant site is suitable or unsuitable based on the reflected signal.Type: GrantFiled: March 31, 2009Date of Patent: April 3, 2012Assignee: Cardiac Pacemakers, Inc.Inventors: Bruce Tockman, Randy Westlund
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Publication number: 20120078333Abstract: Medical lead systems utilizing electromagnetic bandstop filters are provide which can be utilized in a magnetic resonance imaging (MRI) environment for patients who have implanted medical devices. The medical lead system includes an implanted lead having at least one bandstop filter associated therewith, for attenuating current flow through the lead over a range of frequencies. The bandstop filter has an overall circuit Q wherein the resultant 3 dB bandwidth is at least 10 kHz. The values of capacitance and inductance of the bandstop filter are selected such that the bandstop filter is resonant at a selected center frequency. Preferably, the bandstop filter has an overall circuit Q wherein the resultant 10 dB bandwidth is at least 10 kHz. Such bandstop filters are backwards compatible with known implantable deployment systems and extraction systems.Type: ApplicationFiled: December 6, 2011Publication date: March 29, 2012Applicant: GREATBATCH LTD.Inventors: Randy Westlund, Robert A. Stevenson, Christine A. Frysz, Warren S. Dabney, Henry R. Halperin
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Patent number: 8126538Abstract: Described herein are a method and apparatus for introducing instrumentation into the lymphatic system that can be used for physiological monitoring and/or delivery of therapy. Such instrumentation, for example, may include one or more sensors for measuring physiological variables and/or one or more instruments for delivering therapy that is adapted to be disposed within a lymphatic vessel.Type: GrantFiled: June 6, 2006Date of Patent: February 28, 2012Assignee: Cardiac Pacemakers, Inc.Inventors: Allan C. Shuros, Randy Westlund, M. Jason Brooke
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Patent number: 8078287Abstract: A cardiac rhythm management system includes a lead assembly for intracardiac mapping, pacing, and drug delivery. The lead assembly includes an implantable endocardial lead having a proximal end for connection to an implantable cardiac rhythm management device and a distal end for disposal in an intracardiac region. The lead includes a pacing-sensing electrode and a drug delivery device, both located at or near the distal end. A lumen is within and extends throughout the lead, with an opening at or near the proximal end and another opening at or near the distal end. The lumen provides for access to the intracardiac region by a steerable stylet and a hollow needle, one at a time. The steerable stylet allows for electrophysiological mapping of the intracardiac region. The hollow needle allows for delivery of chemical, biochemical, and/or biological substance to the intracardiac region.Type: GrantFiled: June 8, 2007Date of Patent: December 13, 2011Assignee: Cardiac Pacemakers, Inc.Inventors: Lili Liu, Randy Westlund, Steven D. Girouard
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Patent number: 8060219Abstract: An epicardial patch includes an extracellular matrix (ECM) and a plurality of electrodes. The isolated ECM is configured for epicardial attachment over a myocardial region including an injured area to control post-injury remodeling of the myocardial region. The plurality of electrodes is configured for delivering electrical stimulation to enhance the effect of the isolated ECM in remodeling control by altering workload and stress on the myocardial region.Type: GrantFiled: December 20, 2004Date of Patent: November 15, 2011Assignee: Cardiac Pacemakers, Inc.Inventors: Jeffrey Ross, John Kim, Rodney W. Salo, Ronald W. Heil, Jr., Randy Westlund
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Patent number: 8050775Abstract: A lead having pre-formed biased portion is adapted for implantation on or about the heart within the coronary vasculature and for connection to a signal generator. The lead is constructed and arranged so that when it is implanted, the electrodes are housed in the coronary vasculature and are biased toward a vessel wall by the preformed biased portion, which operates to fixate the lead against the vessel wall.Type: GrantFiled: October 29, 2009Date of Patent: November 1, 2011Assignee: Cardiac Pacemakers, Inc.Inventors: Randy Westlund, Bruce A. Tockman, Christina Repasky, Lyle A. Bye, Brian D. Soltis
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Patent number: 7991468Abstract: A method for allowing cardiac signals to be sensed and pacing pulse vectors to be delivered between two or more electrodes. In one embodiment, cardiac signals are sensed and pacing pulse vectors are delivered between least one of a first left ventricular electrode and a second left ventricular electrode. Alternatively, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrodes and a first supraventricular electrode. In addition, cardiac signals are sensed and pacing pulse vectors are delivered between different combinations of the first and second left ventricular electrode, the first supraventricular electrode and a conductive housing. In an additional embodiment, a first right ventricular electrode is used to sense cardiac signals and provide pacing pulses with different combinations of the first and second left ventricular electrodes, the first supraventricular electrode and the housing.Type: GrantFiled: October 30, 2006Date of Patent: August 2, 2011Assignee: Cardiac Pacemakers, Inc.Inventors: Jeffrey E. Stahmann, Bruce Tockman, Randy Westlund, Rene H. Wentkowski, Russell E. Anderson