Method and apparatus to perform electrode combination selection
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61B-005/04
출원번호
US-0890668
(2007-08-07)
등록번호
US-8265736
(2012-09-11)
발명자
/ 주소
Sathaye, Alok S.
Brooke, M. Jason
Tockman, Bruce A.
출원인 / 주소
Cardiac Pacemakers, Inc.
대리인 / 주소
Seager, Tufte & Wickhem, LLC
인용정보
피인용 횟수 :
26인용 특허 :
405
초록▼
Approaches for selecting an electrode combination of multi-electrode pacing devices are described. Electrode combination parameters that support cardiac function consistent with a prescribed therapy are evaluated for each of a plurality of electrode combinations. Electrode combination parameters tha
Approaches for selecting an electrode combination of multi-electrode pacing devices are described. Electrode combination parameters that support cardiac function consistent with a prescribed therapy are evaluated for each of a plurality of electrode combinations. Electrode combination parameters that do not support cardiac function are evaluated for each of the plurality of electrode combinations. An order is determined for the electrode combinations based on the parameter evaluations. An electrode combination is selected based on the order, and therapy is delivered using the selected electrode combination.
대표청구항▼
1. A cardiac rhythm management system, comprising: a plurality of electrode combinations comprising a plurality of cardiac electrodes;circuitry configured to evaluate, for each electrode combination of the plurality of electrode combinations, one or more first parameters associated with electrical s
1. A cardiac rhythm management system, comprising: a plurality of electrode combinations comprising a plurality of cardiac electrodes;circuitry configured to evaluate, for each electrode combination of the plurality of electrode combinations, one or more first parameters associated with electrical stimulation delivered using the electrode combination, the first parameters supportive of cardiac function consistent with a prescribed cardiac resynchronization therapy (CRT);circuitry configured to evaluate, for each electrode combination of the plurality of electrode combinations, one or more second parameters associated with the electrical stimulation delivered using the electrode combination, the second parameters not supportive of cardiac function consistent with the prescribed CRT;an electrode combination processor configured to determine an order for at least some of the electrode combinations of the plurality of electrode combinations based on the evaluations of the first parameters and of the second parameters; anda therapy circuit configured to deliver CRT using a first electrode combination of the plurality of electrode combinations. 2. The system of claim 1, wherein the circuitry to evaluate the one or more first parameters and the circuitry to evaluate the one or more second parameters is at least partially contained within an implantable housing, each of the cardiac electrodes of the plurality of cardiac electrodes coupled to the housing. 3. The system of claim 2, wherein the electrode combination processor is housed within the implantable housing. 4. The system of claim 2, further comprising a patient external device and communications circuitry, the communications circuitry configured to facilitate wireless data transfer between contents of the implantable housing and the patient external device, the patient external device comprising the electrode combination processor. 5. The system of claim 1, further comprising a patient-external programmer comprising: communications circuitry configured to facilitate wireless data transfer between an implanted device and the patient-external programmer; anda display configured to display information associated with the evaluation of the one or more first parameters, the one or more second parameters, and the order of the at least some of the electrode combinations. 6. The system of claim 5, wherein the first electrode combination used to deliver the CRT is selected by a human, the selection being transmitted from the patient-external programmer to the implanted device. 7. The system of claim 1, wherein the circuitry configured to evaluate the one or more first parameters is configured to detect whether electrical therapy delivered using each respective electrode combination of the plurality of electrode combinations improves cardiac function or cardiac output relative to cardiac function or cardiac output without the electrical therapy delivered using the respective electrode combination. 8. The system of claim 1, wherein the circuitry configured to evaluate the one or more second parameters is configured to detect whether electrical therapy delivered using each respective electrode combination of the plurality of electrode combinations stimulates nerves or tissue, the stimulation of the nerves or tissue not improving cardiac function consistent with the prescribed CRT relative to cardiac function without the electrical therapy delivered using the respective electrode combination. 9. The system of claim 1, further comprising a patient-external programmer, wherein the electrode combination processor is configured to determine the order for the at least some of the electrode combinations of the plurality of electrode combinations based on one or more electrode combination criteria input into the patient-external programmer by a human. 10. The system of claim 1, further comprising an electrode combination selection processor configured to select the electrode combination through which the CRT is delivered based on the determined order of the at least some of the electrode combinations. 11. The system of claim 10, wherein the electrode combination selection processor is configured to select another electrode combination through which the CRT is delivered and to command the therapy circuit to switch from delivering the CRT using the first electrode combination to the another electrode combination, wherein the selection of the another electrode combination is based on the order of the at least some of the electrode combinations. 12. The system of claim 1, wherein one of the first parameters is a capture threshold and one of the second parameters is extra-cardiac stimulation. 13. The system of claim 1, wherein the electrode combination processor is further configured to determine the order for at least some of the electrode combinations of the plurality of electrode combinations based on the evaluations of at least two different first parameters and one or more of the second parameters. 14. A system for selecting an electrode combination, the system comprising: a plurality of electrode combinations comprising a plurality of cardiac electrodes attached to an implantable housing;circuitry configured to evaluate, for each electrode combination of the plurality of electrode combinations, one or more first parameters associated with electrical stimulation delivered using the electrode combination, the first parameters supportive of cardiac function consistent with a prescribed cardiac resynchronization therapy (CRT);circuitry configured to evaluate, for each electrode combination of the plurality of electrode combinations, one or more second parameters associated with the electrical stimulation delivered using the electrode combination, the second parameters not supportive of cardiac function consistent with the prescribed CRT;means for determining an order for at least some of the electrode combinations of the plurality of electrode combinations based on the evaluations of the first parameters and of the second parameters; anda therapy circuit configured to deliver CRT using at least one of the electrode combinations of the plurality of electrode combinations. 15. The system of claim 14, further comprising means for selecting the electrode combination through which the CRT is delivered, wherein the selection is based on the order.
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이 특허에 인용된 특허 (405)
Neisz Hans J. (Coon Rapids MN), Active can emulator and method of use.
Gilli Norma L. (Elanora Heights AUX), Apparatus and method employing plural electrode configurations for cardioversion of atrial fibrillation in an arrhythmia.
Nappholz Tibor A. (Englewood CO) Dawson Albert K. (Denver CO) Lu Richard M. T. (Aurora CO) Steinhaus Bruce M. (Parker CO), Apparatus and method for detecting abnormal cardiac rhythms using evoked potential measurements in an arrhythmia control.
Baumann Lawrence S. ; Tockman Bruce A. ; Salo Rodney W. ; Silvermint Emanuel H., Apparatus and method for optimizing cardiac performance by determining the optimal timing interval from an acceleromete.
Ding, Jiang; Kramer, Andrew P.; Spinelli, Julio C., Apparatus and method for ventricular pacing triggered by detection of early ventricular excitation.
Bardy, Gust H.; Rissmann, William J.; Ostroff, Alan H.; Erlinger, Paul J.; Allavatam, Venugopal, Apparatus and method of arrhythmia detection in a subcutaneous implantable cardioverter/defibrillator.
Panken, Eric J.; Combs, William J.; Shelton, Michael B., Atrial aware VVI: a method for atrial synchronous ventricular (VDD/R) pacing using the subcutaneous electrode array and a standard pacing lead.
Kleks Jonathan A. (Northridge CA) Buchanan Stuart W. (Saugus CA) Wilson Raymond J. (Palmdale CA) Poore John W. (South Pasadena CA) Mann Brian M. (Beverly Hills CA), Autocapture system for implantable pulse generator.
Gust H. Bardy, Automated collection and analysis patient care system and method for diagnosing and monitoring congestive heart failure and outcomes thereof.
Gust H. Bardy, Automated collection and analysis patient care system and method for diagnosing and monitoring myocardial ischemia and outcomes thereof.
Gust H. Bardy, Automated collection and analysis patient care system and method for diagnosing and monitoring respiratory insufficiency and outcomes thereof.
Gust H. Bardy, Automated collection and analysis patient care system and method for ordering and prioritizing multiple health disorders to identify an index disorder.
Stadler Robert W. ; Nelson Shannon, Axis shift analysis of electrocardiogram signal parameters especially applicable for multivector analysis by implantable medical devices, and use of same.
Fugoso Mauricio L. ; Rowean Karen M. ; Fourmont Michelle E. ; Brahana Christopher Todd ; Schwab Sharon Ma ; Minas Maritess E., Balloonattachment at catheter tip.
Bardy, Gust H.; Cappato, Riccardo; Rissmann, William J., Biphasic waveform for anti-tachycardia pacing for a subcutaneous implantable cardioverter-defibrillator.
Dahl Roger W. (Andover MN) Swanson David K. (Roseville MN) Hahn Stephen J. (Roseville MN) Lang Douglas J. (Arden Hills MN) Heil John E. (St. Paul MN), Body implantable defibrillation system.
van Krieken Frits M. (Dieren NLX), Cardiac pacemaker system and method for determining a measure of pacing threshold without incurring loss of capture.
Salo Rodney W. (Fridley MN) Spinelli Julio C. (Shoreview MN) Tockman Bruce A. (Minneapolis MN), Cardiac stimulating apparatus and method for heart failure therapy.
Miles Laughton E. (1335 Alma St. Palo Alto CA 94301), Cardio-respiratory control and monitoring system for determining CPAP pressure for apnea treatment.
Bardy,Gust H.; Cappato,Riccardo; Rissmann,William J.; Sanders,Gary H., Cardioverter-defibrillator having a focused shocking area and orientation thereof.
Lynn,Lawrence A.; Lynn,Eric N., Centralized hospital monitoring system for automatically detecting upper airway instability and for preventing and aborting adverse drug reactions.
Bardy,Gust H.; Cappato,Riccardo; Rissmann,William J.; Ostroff,Alan H., Ceramics and/or other material insulated shell for active and non-active S-ICD can.
Frei,Mark G.; Osorio,Ivan; Rise,Mark T.; Giftakis,Jonathon E.; Graves,Nina M.; Carlson,David L.; Jensen,Randy M., Channel-selective blanking for a medical device system.
Greanias Evon C. (Chevy Chase MD) Guarnieri C. Richard (Somers NY) Seeland ; Jr. John J. (Oakland Park FL) Verrier Guy F. (Reston VA) Donaldson Robert L. (Annapolis MD), Combined finger touch and stylus detection system for use on the viewing surface of a visual display device.
Deighan Joseph (Gardner KS) Phillips Steven L. (Olathe KS) Wanbaugh Linn D. (Olathe KS) Metzler Philip M. (St. Charles MO), Compliance meter for respiratory therapy.
Ostroff, Alan H.; Rissmann, William J.; Mezack, Gary P., Current waveforms for anti-tachycardia pacing for a subcutaneous implantable cardioverter- defibrillator.
Sweeney, Robert J.; Lovett, Eric G., Curvature based method for selecting features from an electrophysiologic signals for purpose of complex identification and classification.
Swanson David K. (Roseville MN) Dahl Roger W. (Andover MN) Lang Douglas J. (Arden Hills MN), Defibrillation electrode system having smooth current distribution with floating electrode.
KenKnight Bruce H. (Minneapolis MN) Hall Jeffrey A. (Bloomington MN), Defibrillation patch electrode having conductor-free resilient zone for minimally invasive deployment.
Van Hofwegen Lloyd (New Brighton MN) Hsung Jean-Cheui (Shoreview MN) Huntwork Daniel (Vadnais Heights MN), Defibrillation/cardioversion system with multiple evaluation of heart condition prior to shock delivery.
Swanson David K. (Roseville MN) Nelson James P. (Shoreview MN) Lang Douglas J. (Arden Hills MN), Defibrillator waveform generator for generating waveform of long duration.
Geddes Leslie A. (W. Lafayette IN) Babbs Charles F. (W. Lafayette IN) Vorhees ; III William D. (Lafayette IN) Bourland Joe D. (W. Lafayette IN), Demand electroventilator.
Steinhaus Bruce M. (Parker CO) Wells Randy T. (Littleton CO), Detection of cardiac arrhythmias using correlation of a cardiac electrical signals and temporal data compression.
Haefner Paul A. (Crystal MN) Stockburger Mark A. (Inver Grove Heights MN) Linder William J. (Golden Valley MN), Digital AGC using separate gain control and threshold templating.
Swanson David K. (Roseville MN) Ideker Raymond E. (Durham NC) Walcott Greg (Durham NC), Dual capacitor biphasic defibrillator waveform generator employing selective connection of capacitors for each phase.
Kieval Robert S. (Golden Valley MN) Hess Michael F. (Minneapolis MN), Dual chamber pacing system and method with continual adjustment of the AV escape interval so as to maintain optimized ve.
Robert A. Stevenson, ELECTROMAGNETIC INTERFERENCE (EMI) FILTER AND PROCESS FOR PROVIDING ELECTROMAGNETIC COMPATIBILITY OF AN ELECTRONIC DEVICE WHILE IN THE PRESENCE OF AN ELECTROMAGNETIC EMITTER OPERATING AT THE SAME FRE.
Hittman Fred (Baltimore MD) Gelb Allan S. (Baltimore MD) Gelb Marcia J. (Baltimore MD) Foreman Thomas N. (Ellicott City MD), Filtered feedthrough assembly having a mounted chip capacitor for medical implantable devices and method of manufacture.
Ding,Jing; Yu,Yinghong; Spinelli,Julio, Identifying heart failure patients suitable for resynchronization therapy using QRS complex width from an intracardiac electrogram.
Donald L. Hopper ; Jeffrey E. Stahmann ; Bruce R. Jones ; James P. Nelson, Implantable cardiac rhythm management device for assessing status of CHF patients.
Park Euljoon ; Bornzin Gene A. ; Florio Joseph J. ; Bradley Kerry ; Gibb William, Implantable cardiac stimulation device and method for varying pacing parameters to mimic circadian cycles.
Euljoon Park ; Joseph J. Florio ; Kerry Bradley ; Gene A. Bornzin ; Laurence S. Sloman, Implantable cardiac stimulation device for and method of monitoring progression or regression of a patient's heart condition by monitoring ventricular repolarization interval dispersion.
Mouchawar, Nabil A.; Mouchawar, Gabriel A., Implantable cardiac stimulation device having a capture assurance system which minimizes battery current drain and method for operating the same.
Bornzin, Gene A.; Florio, Joseph J.; Sloman, Laurence S.; Mann, Brian M.; Sholder, Jason A., Implantable cardiac stimulation device with automatic evoked response sensing electrode configuration selection and method.
Poore, John W.; Bradley, Kerry; Sloman, Laurence S.; Bornzin, Gene A.; Florio, Joseph J., Implantable cardiac stimulation system and method for automatic capture verification calibration.
Levine,Paul A.; Shankar,Balakrishnan; McNeil, II,Kenneth R.; Florio,Joseph J., Implantable cardiac stimulation system providing autocapture and lead impedance assessment and method.
Kroll Mark W. (Minnetonka MN) Adams Theodore P. (Edina MN) Anderson Kenneth M. (Bloomington MN) Smith Charles U. (Minnetonka MN), Implantable cardioverter defibrillator having a smaller displacement volume.
Kroll Mark W. ; Adams Theodore P. ; Anderson Kenneth M. ; Smith Charles U., Implantable cardioverter defibrillator having a smaller energy storage capacity.
Adams Theodore P. (Edina MN) Supino Charles G. (Arden Hills MN) Kroll Mark W. (Minnetonka MN), Implantable cardioverter defibrillator system having independently controllable electrode discharge pathway.
KenKnight Bruce H. ; Dahl Roger W. ; Swanson David K., Implantable conformal coil patch electrode with multiple conductive elements for cardioversion and defibrillation.
Hauser Robert G. (Long Lake MN), Implantable intravenous cardiac stimulation system with pulse generator housing serving as optional additional electrode.
Hauser Robert G. ; Dahl Roger W. ; KenKnight Bruce H., Implantable intravenous cardiac stimulation system with pulse generator housing serving as optional additional electrode.
Deno,D. Curtis; Havel,William J.; Bennett,Tommy D.; Stein,Paul M.; Euler,David E., Implantable medical device for treating cardiac mechanical dysfunction by electrical stimulation.
Dahl Roger W. (Andover MN) Kadera James D. (St. Paul MN) Wickham Robert W. (Harris MN) Hoch J. Michael (Plymouth MN) Heil John (St. Paul MN), Insertion and tunneling tool for a subcutaneous wire patch electrode.
Bobroff, Randa M.; Kiliszewski, Lawrence; Lickliter, Hans; Houghton, Frederick C.; Safabash, Jason H.; McConnell, Susan M.; Marano, April A., Insertion device for an insertion set and method of using the same.
Geng Zhang ; Qingsheng Zhu ; Laura Mepham ; Jesse W. Hartley, Method and apparatus for adjusting the sensing threshold of a cardiac rhythm management device.
Ambos Hans D. (St. Louis MO) Cain Michael E. (St. Louis MO) Sobel Burton E. (St. Louis MO), Method and apparatus for analyzing electrocardiographic signals.
Condie Catherine R. ; Baxter Daniel J. ; Combs William J. ; Greeninger Daniel J. ; Kleckner Karen J. ; Markowitz H. Toby ; Stroebel John C. ; Wahlstrand John D., Method and apparatus for automatic pacing threshold determination.
Hahn Stephen J. (Roseville MN) Swanson David K. (Mountain View CA), Method and apparatus for defibrillation using a multiphasic truncated exponential waveform.
Stroetmann Brigitte (Uttenreuth DEX) Mund Konrad (Uttenreuth DEX) Kallert Siegfried (Erlangen DEX), Method and apparatus for detecting a state of imminent cardiac arrhythmia in response to a nerve signal from the autonom.
Stadler Robert ; Nelson Shannon ; Stylos Lee ; Sheldon Todd J., Method and apparatus for filtering electrocardiogram (ECG) signals to remove bad cycle information and for use of physiologic signals determined from said filtered ECG signals.
Cao,Jian; Gillberg,Jeffrey M.; Gennaro,Chris J., Method and apparatus for generating a template for arrhythmia detection and electrogram morphology classification.
Rapoport David M. ; Norman Robert G. ; Gruenke Roger A., Method and apparatus for optimizing the continuous positive airway pressure for treating obstructive sleep apnea.
Bradley,Kerry; Sloman,Laurence S., Method and apparatus for providing atrial autocapture in a dynamic atrial overdrive pacing system for use in an implantable cardiac stimulation device.
Florio, Joseph J.; Bornzin, Gene A., Method and apparatus for reducing the effect of evoked responses on polarization measurements in an automatic capture pacing system.
Sommer, John L.; Cho, Yong Kyun; McClure, Lawrence C., Method and apparatus for selecting an optimal electrode configuration of a medical electrical lead having a multiple electrode array.
Caswell Stephanie A. ; Jenkins Janice M. ; DiCarlo Lorenzo A., Method and apparatus for separation of ventricular tachycardia from ventricular fibrillation for implantable cardioverte.
Tockman Bruce A. (Minneapolis MN) Spinelli Julio C. (Shoreview MN) Salo Rodney W. (Fridley MN), Method and apparatus to automatically optimize the pacing mode and pacing cycle parameters of a dual chamber pacemaker.
Dubreuil Anne (Boulonge FRX) Nitzche Remi (Beynes FRX) Wanderstok Georges (Clamart FRX), Method and device for checking stimulation power in a pacemaker.
Cazares, Shelley Marie; Ricci, Carlos Alberto; Kim, Jaeho, Method and device for determination of arrhythmia rate zone thresholds using a probability function.
Throne Robert D. (Ann Arbor) Jenkins Janice M. (Ann Arbor) DiCarlo Lorenzo A. (Ann Arbor MI), Method and system for monitoring electrocardiographic signals and detecting a pathological cardiac arrhythmia such as ve.
Cho, Yong Kyun; Jensen, Donald N.; Mongeon, Luc R., Method for providing a therapy to a patient involving modifying the therapy after detecting an onset of sleep in the patient, and implantable medical device embodying same.
Bardy, Gust H.; Cappato, Riccardo; Rissmann, William J.; Sanders, Gary H., Method of insertion and implantation of implantable cardioverter-defibrillator canisters.
Hemming Michael Todd ; Peck Bradley C. ; Blow Brian A. ; Morrison Scott M. ; Schuelke Robert John, Microprocessor capture detection circuit and method.
Hemming Michael Todd ; Peck Bradley C. ; Blow Brian A. ; Morrison Scott M. ; Schuelke Robert John, Microprocessor capture detection circuit and method.
Hemming Michael Todd ; Peck Bradley C. ; Blow Brian A. ; Morrison Scott M. ; Schuelke Robert John, Microprocessor capture detection circuit and method.
Hemming Michael Todd ; Peck Bradley C. ; Blow Brian A. ; Morrison Scott M. ; Schuelke Robert John, Microprocessor capture detection circuit and method.
Klein George J.,CAX ; Warkentin Dwight H. ; Riff Kenneth M. ; Lee Brian B. ; Carney James K. ; Turi Gregg ; Varrichio Anthony J., Minimally invasive implantable device for monitoring physiologic events.
Bardy,Gust H.; Cappato,Riccardo; Rissmann,William J., Monophasic waveform for anti-bradycardia pacing for a subcutaneous implantable cardioverter-defibrillator.
Karlsson Per (Taby SEX) Lundahl Gunilla (Lidingo SEX) Oljemark Michael (Saltsjo-Boo SEX) Ubby Johan (Vaxholm SEX), Myocardial ischemia and infarction analysis and monitoring method and apparatus.
Kroll Mark W. (13011 Brenwood Trail Minnetonka MN 55343) Dahl Roger W. (112 150th La. NW. Andover MN 55304) Sundquist Stephen K. (18027 Turnberry Cir. Minnetonka MN 55345) Nelson Randall S. (7419 Pin, One piece disposable threshold test can electrode for use with an implantable cardioverter defibrillator system.
Ericksen, James H.; Betzold, Robert A.; Condie, Catherine R.; Gillberg, Jeffrey M.; Stadler, Robert W.; Stroebel, John C.; Jackson, Troy E., Pacemaker having adaptive arrhythmia detection windows.
Olson Walter H. (North Oaks MN) Kaemmerer William F. (Edina MN), Prioritized rule based method and apparatus for diagnosis and treatment of arrhythmias.
Dahl Roger W. (Andover MN) Swanson David K. (Roseville MN) Hahn Stephen J. (Roseville MN) Lang Douglas J. (Arden Hills MN) Heil John E. (St. Paul MN), Process for implanting subcutaneous defibrillation electrodes.
Brockway Brian P. (Minneapolis MN) Dreher Robert D. (Roseville MN) Huntwork Daniel E. (White Bear Lake MN) Lindstedt Brock S. (St. Paul MN) Morrison Douglas C. (St. Paul MN) Mills Perry A. (Roseville, Programmable multi-mode cardiac pacemaker.
Hauck John A. (Shoreview MN) Olive Arthur L. (Stacy MN), Rate adaptive cardiac rhythm management device control algorithm using trans-thoracic ventilation.
Hartley Jesse W. ; Cohen Marc H. ; Stessman Nicholas J. ; Reedstrom Scott A. ; Check Steven D. ; Nelson James P., Rate adaptive cardiac rhythm management device using transthoracic impedance.
Heil ; Jr. Ronald W. (Roseville MN) Kenknight Bruce H. (Robbinsdale MN) Wickham ; Jr. ; deceased Robert W. (late of Harris MN) Quiggle ; legal administrator by Duane R. (Forest Lake MN), Resilient structurally coupled and electrically independent electrodes.
Shimizu, Junya, SIGNAL SEPARATION METHOD, SIGNAL PROCESSING APPARATUS, IMAGE PROCESSING APPARATUS, MEDICAL IMAGE PROCESSING APPARATUS AND STORAGE MEDIUM FOR RESTORING MULTIDIMENSIONAL SIGNALS FROM OBSERVED DATA IN W.
Meyer,Scott A.; Dong,Yanting; Stalsberg,Kevin John, Selection of cardiac signal features detected in multiple classification intervals for cardiac pacing response classification.
Dahl Roger W. (Andover MN) Wickham ; deceased Robert W. (late of Harris MN by Duane Quiggle ; administrator) Swanson David K. (Roseville MN) Lipson David (Poway CA), Stent-type defibrillation electrode structures.
Dahl Roger W. (Andover MN) Swanson David K. (Roseville MN) Hahn Stephen J. (Roseville MN) Lang Douglas J. (Arden Hills MN) Heil John E. (St. Paul MN), Subcutaneous defibrillation electrodes.
Dahl Roger W. (Andover MN) Swanson David K. (Roseville MN) Hahn Stephen J. (Roseville MN) Lang Douglas J. (Arden Hills MN) Heil John E. (St. Paul MN), Subcutaneous defibrillation electrodes.
Dahl Roger W. (Andover) Swanson David K. (Roseville) Hahn Stephen J. (Roseville) Lang Douglas J. (Arden Hills) Heil John E. (St. Paul MN), Subcutaneous defibrillation electrodes.
Bardy, Gust H.; Cappato, Riccardo; Rissmann, William J.; Sanders, Gary H., Subcutaneous electrode for transthoracic conduction with low-profile installation appendage and method of doing same.
Bennett Tom D. (Shoreview MN) Combs William J. (Eden Prairie MN) Kallok ; Michael J. (New Brighton MN) Lee Brian B. (Golden Valley MN) Mehra Rahul (Stillwater MN) Klein George J. (London CAX), Subcutaneous multi-electrode sensing system, method and pacer.
Fraley, Mary A.; Hoch, Ronald F.; Johnstone, George; Lessar, Joseph F.; Seifried, Lynn M.; Strom, James, Subcutaneous sensing feedthrough/electrode assembly.
Brabec, Scott J.; Brennen, Kenneth R.; Schindeldecker, William; Strom, James, Subcutaneous spiral electrode for sensing electrical signals of the heart.
Ceballos, Thomas I.; Nicholson, John E.; Panken, Eric J.; Reinke, James D.; Strom, James; Tidemand, Kevin K., Surround shroud connector and electrode housings for a subcutaneous electrode array and leadless ECGS.
Bardy Gust H., System and method for automated collection and analysis of patient information retrieved from an implantable medical device for remote patient care.
Gust H. Bardy, System and method for automated collection and analysis of patient information retrieved from an implantable medical device for remote patient care.
Cho,Yong K.; Erickson,Mark K.; Markowitz,H. Toby, System and method for automatically monitoring and delivering therapy for sleep-related disordered breathing.
Florio, Joseph J.; Park, Euljoon; Bradley, Kerry; Bornzin, Gene A., System and method for automatically verifying capture during multi-chamber stimulation.
Bardy Gust H., System and method for determining a reference baseline of individual patient status for use in an automated collection and analysis patient care system.
Bardy Gust H., System and method for determining a reference baseline of individual patient status for use in an automated collection and analysis patient care system.
Bruhns,Ken; Min,Xiaoyi; Levine,Paul A.; Park,Euljoon, System and method for determining optimal atrioventricular delay based on intrinsic conduction delays.
Ciaccio,Edward J.; Wit,Andrew L.; Tosti,Alexis Christine, System and method for determining reentrant ventricular tachycardia isthmus location and shape for catheter ablation.
Koh,Steve, System and method for diagnosing and tracking congestive heart failure based on the periodicity of cheyne-stokes respiration using an implantable medical device.
Bardy Gust H., System and method for monitoring a patient status for an individual patient using a reference baseline in an automated collection and analysis patient care system.
Sloman, Laurence S.; Bradley, Kerry, System and method for multichamber cardiac stimulation with ventricular capture verification using far-field evoked response.
Brian B. Lee ; Michael R. Kane ; Eric J. Panken ; James D. Reinke, System and method for non-invasive determination of optimal orientation of an implantable sensing device.
Laurence S. Sloman ; Paul A. Levine, System and method for optimizing far-field R-wave sensing by switching electrode polarity during atrial capture verification.
Gene A. Bornzin ; Joseph J. Florio ; Laurence S. Sloman, System and method of identifying fusion for dual-chamber automatic capture stimulation device.
Mouchawar, Gabriel A.; Amely-Velez, Jorge N.; Isaac, George I.; Badelt, Steven W., System and method of performing automatic capture in an implantable cardiac stimulation device.
Andrew P. Kramer ; Jeffrey E. Stahmann ; Rene H. Wentkowski ; Kenneth L. Baker ; Jesse W. Hartley ; David B. Krig, System providing ventricular pacing and biventricular coordination.
Kramer Andrew P. ; Stahmann Jeffrey E. ; Wentkowski Rene H. ; Baker Kenneth L. ; Hartley Jesse W. ; Krig David B., System providing ventricular pacing and biventricular coordination.
Yu, Yinghong; Herrmann, Keith L.; Rockweiler, Holly E.; Saha, Sunipa; Nyquist, Benjamin J., System and method for assessing and selecting stimulation vectors in an implantable cardiac resynchronization therapy device.
Yu, Yinghong; Herrmann, Keith L.; Rockweiler, Holly; Saha, Sunipa; Nyquist, Benjamin J, System and method for assessing and selecting stimulation vectors in an implantable cardiac resynhronization therapy device.
Saha, Sunipa; Herrmann, Keith L.; Yu, Yinghong; Yost, David W.; Rockweiler, Holly E., Systems and methods for determining parameters for each of a plurality of vectors.
Rockweiler, Holly E.; Saha, Sunipa; Herrmann, Keith L.; Yu, Yinghong; Krueger, Joel A., Systems and methods for facilitating selection of one or more vectors in a medical device.
Rockweiler, Holly E.; Saha, Sunipa; Herrmann, Keith L.; Yu, Yinghong; Krueger, Joel A., Systems and methods for facilitating selection of one or more vectors in a medical device.
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