Patents by Inventor Aaron R. McCabe
Aaron R. McCabe 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: 20160082259Abstract: Various aspects of the present subject matter relate to a method. According to various method embodiments, cardiac activity is detected, and neural stimulation is synchronized with a reference event in the detected cardiac activity. Neural stimulation is titrated based on a detected response to the neural stimulation. Other aspects and embodiments are provided herein.Type: ApplicationFiled: December 3, 2015Publication date: March 24, 2016Inventors: Aaron R. McCabe, Imad Libbus, Yi Zhang, Paul A. Haefner, Alok S. Sathaye, Anthony V. Caparso, M. Jason Brooke
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Patent number: 9272151Abstract: An example of a system comprises a cardiac pulse generator configured to generate cardiac paces to pace the heart, a sensor configured to sense a physiological signal for use in detecting pace-induced phrenic nerve stimulation (PS), a storage, and a phrenic nerve stimulation detector. The storage is configured for use to store patient-specific PS features for PS beats with a desirably large signal-to-noise ratio. The phrenic nerve stimulation detector may be configured to detect PS features for the patient by analyzing a PS beat with a desirably large signal-to-noise ratio induced using a pacing pulse with a large energy output and store patient-specific PS features in the storage, and use the patient-specific PS features stored in the memory to detect PS beats when the heart is paced heart using cardiac pacing pulses with a smaller energy output.Type: GrantFiled: July 11, 2013Date of Patent: March 1, 2016Assignee: Cardiac Pacemakers, Inc.Inventors: Krzysztof Z. Siejko, Sunipa Saha, Aaron R. McCabe, Holly Rockweiler
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Publication number: 20160008614Abstract: A CRM system enhances intracardiac electrogram-based arrhythmia detection using a wireless electrocardiogram (ECG), which is a signal sensed with implantable electrodes and approximating a surface ECG. In one embodiment, an intracardiac electrogram allows for detection of an arrhythmia, and the wireless ECG allows for classification of the detected arrhythmia by locating its origin. In another embodiment, the wireless ECG is sensed as a substitute signal for the intracardiac electrogram when the sensing of the intracardiac electrogram becomes unreliable. In another embodiment, a cardiac signal needed for a particular purpose is selected from one or more intracardiac electrograms and one or more wireless ECGs based on a desirable signal quality. In another embodiment, intracardiac electrogram-based arrhythmia detection and wireless ECG-based arrhythmia detection confirm with each other before indicating a detection of arrhythmia of a certain type.Type: ApplicationFiled: September 21, 2015Publication date: January 14, 2016Inventors: Yi Zhang, Aaron R. McCabe, David J. Yonce, Julie A. Thompson
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Publication number: 20160008610Abstract: An interactive representation of electrostimulation electrodes or vectors can be provided, such as for configuring combinations of electrostimulation electrodes. In an example, electrodes or test parameters can be presented graphically or in a table. A user interface can be configured to receive user-input designating electrode combinations or vectors for test or for use in programming an implantable or ambulatory medical device. The interface can be used to indicate suggested electrode combinations or vectors in response to a first selection of an electrode. Tests can be performed on electrode combinations and vectors, and the results of the tests can be presented to a user using the interactive representation. In an example, test results can be analyzed by a processor and optionally used to program an implantable or ambulatory medical device.Type: ApplicationFiled: September 18, 2015Publication date: January 14, 2016Inventors: Sunipa Saha, Kenneth N. Hayes, Keith L. Herrmann, James R. Kalgren, Aaron R. McCabe, Holly Elizabeth Rockweiler, Shibaji Shome, Krzysztof Z. Siejko
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Patent number: 9211415Abstract: A method and a system of phrenic nerve stimulation detection in conjunction with posture sensing is disclosed. In an embodiment, the method may include receiving a trigger for conducting a pace-induced phrenic nerve stimulation (PS) search using the IMD within the patient. On receiving the trigger, the IMD may be used for conducting the PS search. A procedure of conducting the PS search may include measuring a posture of the patient using an implantable posture sensor, searching for PS while the patient is in the measured posture and obtaining a PS result from the PS search for the measured posture. The method may include recording both the PS result and the measured posture in a memory of the IMD.Type: GrantFiled: February 26, 2014Date of Patent: December 15, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Sunipa Saha, Holly Rockweiler, Aaron R. McCabe, Krzysztof Z. Siejko, John D. Hatlestad
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Patent number: 9211412Abstract: Various aspects of the present subject matter relate to a method. According to various method embodiments, cardiac activity is detected, and neural stimulation is synchronized with a reference event in the detected cardiac activity. Neural stimulation is titrated based on a detected response to the neural stimulation. Other aspects and embodiments are provided herein.Type: GrantFiled: March 13, 2013Date of Patent: December 15, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Aaron R. McCabe, Imad Libbus, Yi Zhang, Paul A. Haefner, Alok S. Sathaye, Anthony V. Caparso, M. Jason Brooke
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Publication number: 20150283388Abstract: Cardiac anodal electrostimulation detection systems and methods are described, such as for distinguishing between cathodal-only capture and at least partially anodal capture (e.g., combined anodal and cathodal capture, or between two anodes of which only one captures nearby cardiac tissue, etc.).Type: ApplicationFiled: June 17, 2015Publication date: October 8, 2015Inventors: Holly Rockweiler, Shibaji Shome, Aaron R. McCabe, Rachel A. Taylor
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Patent number: 9149642Abstract: The present invention concerns phrenic nerve activation detection algorithms for characterization of phrenic nerve activation and phrenic nerve activation avoidance in cardiac pacing therapy. Various embodiments concern receiving a respiration signal indicative of respiratory activity of the patient, identifying respiratory phases based on the respiration signal, delivering cardiac pacing pulses within each of the identified respiratory phases, receiving a phrenic nerve activation signal indicative of activation of the patient's phrenic nerve, analyzing the phrenic nerve stimulation signal to determine if one or more of the pacing pulses activated the phrenic nerve of the patient, and determining if at least one of the delivered pacing pulses activated the phrenic nerve of the patient based on the phrenic nerve activation signal indicating activation of the patient's phrenic nerve associated with delivery of the at least one cardiac pacing pulse.Type: GrantFiled: May 26, 2010Date of Patent: October 6, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Aaron R. McCabe, Holly E. Rockweiler, Jacob L. Laughner
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Patent number: 9138585Abstract: An interactive representation of electrostimulation electrodes or vectors can be provided, such as for configuring combinations of electrostimulation electrodes. In an example, electrodes or test parameters can be presented graphically or in a table. A user interface can be configured to receive user-input designating electrode combinations or vectors for test or for use in programming an implantable or ambulatory medical device. The interface can be used to indicate suggested electrode combinations or vectors in response to a first selection of an electrode. Tests can be performed on electrode combinations and vectors, and the results of the tests can be presented to a user using the interactive representation. In an example, test results can be analyzed by a processor and optionally used to program an implantable or ambulatory medical device.Type: GrantFiled: August 4, 2011Date of Patent: September 22, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Sunipa Saha, Kenneth N. Hayes, Keith L. Herrmann, James Kalgren, Aaron R. McCabe, Holly Rockweiler, Shibaji Shome, Krzysztof Z. Siejko
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Publication number: 20150238766Abstract: Various aspects of the present subject matter relate to a method. According to various method embodiments, cardiac activity is detected, and neural stimulation is synchronized with a reference event in the detected cardiac activity. Neural stimulation is titrated based on a detected response to the neural stimulation. Other aspects and embodiments are provided herein.Type: ApplicationFiled: May 11, 2015Publication date: August 27, 2015Inventors: Aaron R. McCabe, Imad Libbus, Yi Zhang, Paul A. Haefner, Alok S. Sathaye, Anthony V Caparso, M. Jason Brooke
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Publication number: 20150190643Abstract: An implantable cardiac device includes a sensor for sensing patient activity and detecting phrenic nerve activation. A first filter channel attenuates first frequencies of the sensor signal to produce a first filtered output. A second filter channel attenuates second frequencies of the accelerometer signal to produce a second filtered output. Patient activity is evaluated using the first filtered output and phrenic nerve activation caused by cardiac pacing is detected using the second filtered output.Type: ApplicationFiled: March 23, 2015Publication date: July 9, 2015Inventors: Aaron R. McCabe, Holly E. Rockweiler, Jacob I. Laughner
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Patent number: 9061158Abstract: Cardiac anodal electrostimulation detection systems and methods are described, such as for distinguishing between cathodal-only capture and at least partially anodal capture (e.g., combined anodal and cathodal capture, or between two anodes of which only one captures nearby cardiac tissue, etc.).Type: GrantFiled: November 21, 2011Date of Patent: June 23, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Holly Rockweiler, Shibaji Shome, Aaron R. McCabe, Rachel A. Taylor
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Patent number: 9031650Abstract: Various aspects of the present subject matter relate to a method. According to various method embodiments, cardiac activity is detected, and neural stimulation is synchronized with a reference event in the detected cardiac activity. Neural stimulation is titrated based on a detected response to the neural stimulation. Other aspects and embodiments are provided herein.Type: GrantFiled: January 7, 2011Date of Patent: May 12, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Aaron R. McCabe, Imad Libbus, Yi Zhang, Paul A. Haefner, Alok S. Sathaye, Anthony V. Caparso, M. Jason Brooke
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Patent number: 9020596Abstract: An improved technique is described for dealing with the detection of fusion beats when capture verification is performed by a cardiac pacing device such as during a capture threshold determination procedure. Schemes for classifying heart beats may misclassify beats as fusion beats due to feature/morphology changes in the test electrogram waveform that may occur even when capture is achieved.Type: GrantFiled: July 11, 2012Date of Patent: April 28, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Shibaji Shome, Yanting Dong, Aaron R. McCabe
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Patent number: 9008772Abstract: An apparatus comprises a control circuit that initiates a normal pacing mode for delivery of electrostimulation energy to the heart chamber. In response to an indication to initiate a threshold test, the control circuit determines an electrode configuration used to deliver the electrostimulation energy in the normal pacing mode, selects a first threshold test mode when a sensing electrode independent from the set of pacing electrodes is unavailable for the heart chamber, wherein a cardiac activity signal is sensed using a set of sensing electrodes that includes an electrode common to the set of pacing electrodes, and selects a second threshold test mode when a sensing electrode independent from the set of pacing electrodes is available for the heart chamber, wherein the cardiac activity signal is sensed using a set of sensing electrodes that excludes an electrode common to the set of pacing electrodes.Type: GrantFiled: November 26, 2012Date of Patent: April 14, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Aaron R. McCabe, Deepa Mahajan, David W. Yost, Clayton S. Foster, Shibaji Shome, Amy Jean Brisben
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Patent number: 8996108Abstract: An implantable cardiac device includes a sensor for sensing patient activity and detecting phrenic nerve activation. A first filter channel attenuates first frequencies of the sensor signal to produce a first filtered output. A second filter channel attenuates second frequencies of the accelerometer signal to produce a second filtered output. Patient activity is evaluated using the first filtered output and phrenic nerve activation caused by cardiac pacing is detected using the second filtered output.Type: GrantFiled: December 12, 2013Date of Patent: March 31, 2015Assignee: Cardiac Pacemakers, Inc.Inventors: Aaron R. McCabe, Holly E. Rockweiler, Jacob I. Laughner
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Patent number: 8923966Abstract: An apparatus comprises a cardiac signal sensing circuit, a pacing therapy circuit, and a controller circuit. The controller circuit includes a safety margin calculation circuit. The controller circuit initiates delivery of pacing stimulation energy to the heart using a first energy level, changes the energy level by at least one of: a) increasing the energy from the first energy level until detecting that the pacing stimulation energy induces stable capture, or b) reducing the energy from the first energy level until detecting that the stimulation energy fails to induce capture, and continues changing the stimulation energy level until confirming stable capture or the failure of capture. The safety margin calculation circuit calculates a safety margin of pacing stimulation energy using at least one of a determined stability of a parameter associated with evoked response and a determined range of energy levels corresponding to stable capture or intermittent failure of capture.Type: GrantFiled: September 19, 2013Date of Patent: December 30, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Amy Jean Brisben, Shibaji Shome, Kenneth N. Hayes, Yanting Dong, Aaron R. McCabe, Scott A. Meyer, Kevin John Stalsberg
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Patent number: 8880160Abstract: A system comprises a cardiac signal sensing and a processing circuit. The cardiac signal sensing circuit senses a first cardiac signal segment that includes a QRS complex and a second cardiac signal segment that includes a fiducial indicative of local ventricular activation. The processor circuit includes a site activation timer circuit configured to determine a time duration between a fiducial of the QRS complex of the first cardiac signal segment and the fiducial of the second cardiac signal segment. The processor circuit is configured to generate, using the determined time duration, an indication of optimality of placement of one or more electrodes for delivering therapy and provide the indication to at least one of a user or process.Type: GrantFiled: July 19, 2012Date of Patent: November 4, 2014Assignee: Cardiac Pacemakers, Inc.Inventors: Shibaji Shome, Pramodsingh Hirasingh Thakur, Yinghong Yu, Keith L. Herrmann, Aaron R. McCabe, Jiang Ding
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Publication number: 20140277280Abstract: A method and a system of phrenic nerve stimulation detection in conjunction with posture sensing is disclosed. In an embodiment, the method may include receiving a trigger for conducting a pace-induced phrenic nerve stimulation (PS) search using the IMD within the patient. On receiving the trigger, the IMD may be used for conducting the PS search. A procedure of conducting the PS search may include measuring a posture of the patient using an implantable posture sensor, searching for PS while the patient is in the measured posture and obtaining a PS result from the PS search for the measured posture. The method may include recording both the PS result and the measured posture in a memory of the IMD.Type: ApplicationFiled: February 26, 2014Publication date: September 18, 2014Applicant: Cardiac Pacemakers, Inc.Inventors: Sunipa Saha, Holly Rockweiler, Aaron R. McCabe, Krzysztof Z. Siejko, John D. Hatlestad
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Publication number: 20140277244Abstract: An example of a system includes an implantable medical device (IMD) for implantation in a patient, where the IMD includes a cardiac pace generator, phrenic nerve stimulation (PS) sensor, a memory, and a controller, and where the controller is operably connected to the cardiac pace generator to generate cardiac paces. The controller is configured to provide a trigger for conducting a PS detection procedure and perform the PS detection procedure in response to the trigger. In performing the PS detection procedure the controller is configured to receive a signal from the sensor, detect PS using the signal from the sensor, and record the PS detection in storage within the IMD.Type: ApplicationFiled: February 26, 2014Publication date: September 18, 2014Applicant: Cardiac Pacemakers, Inc.Inventors: Holly Rockweiler, Sunipa Saha, Aaron R. McCabe, Krzysztof Z. Siejko