Patents by Inventor Scott R. Vanderlinde
Scott R. Vanderlinde 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: 20240148308Abstract: Systems and methods for monitoring a subject for sleep apnea risk based on a bradycardia burden are disclosed. A sleep apnea monitoring system comprises a risk stratification circuit configured to detect bradycardia using cardiac information of the subject during a monitoring period, determine a bradycardia burden representing accumulated time or relative time of the subject being in the detected bradycardia over the monitoring period, and determine an apnea risk based on the bradycardia burden. An output unit can provide the apnea risk to a user, or to a process executed by an apnea detector to perform a confirmatory apnea detection.Type: ApplicationFiled: November 3, 2023Publication date: May 9, 2024Inventors: David L. Perschbacher, Keith Joseph Mattson, Scott R. Vanderlinde, Abhijit Rajan
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Publication number: 20240074705Abstract: A medical device includes a processor, an acceleration sensor, and memory. The acceleration sensor is configured to generate acceleration data that comprises a plurality of acceleration measurements. The memory comprises instructions that when executed by the processor, cause the processor to: obtain the acceleration data from the acceleration sensor; and determine, based on the acceleration data, that the medical device has flipped.Type: ApplicationFiled: April 27, 2023Publication date: March 7, 2024Inventors: Jonathan Bennett Shute, John D. Hatlestad, Scott R. Vanderlinde
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Publication number: 20230337988Abstract: Systems and methods for detecting a physiological event or estimating a physiological parameter using ambulatory electrograms of a subject are discussed. An exemplary system includes a computing device that can receive ambulatory electrograms collected by an ambulatory medical device (AMD) associated with a subject, and apply the ambulatory electrograms to a trained machine learning model to estimate a physiological parameter or to detect a physiological event in the subject. The same or a different machine learning model can be trained to detect an operating status of the AMD using the ambulatory electrograms. The system comprises an output device to output the estimated physiological parameter, the detected physiological event, or the detected device operating status a user or a process such as to initiate or titrate a therapy.Type: ApplicationFiled: April 18, 2023Publication date: October 26, 2023Inventors: Ramesh Wariar, Viktoria A. Averina, Deepa Mahajan, Keith R. Maile, Bin Mi, Craig Stolen, Scott R. Vanderlinde
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Patent number: 11666282Abstract: Embodiments of the present disclosure relate to detecting implantable medical device orientation changes. In an exemplary embodiment, a medical device having a processor, comprises an acceleration sensor and memory. The acceleration sensor is configured to generate acceleration data that comprises a plurality of acceleration measurements. The memory comprises instructions that when executed by the processor, cause the processor to: obtain the acceleration data from the acceleration sensor; and determine, based on the acceleration data, that the medical device has flipped.Type: GrantFiled: June 8, 2020Date of Patent: June 6, 2023Assignee: Cardiac Pacemakers, Inc.Inventors: Jonathan Bennett Shute, John D. Hatlestad, Scott R. Vanderlinde
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Publication number: 20230072666Abstract: Various aspects of the present disclosure are directed toward apparatuses, systems, and methods for supporting components of an implantable medical device. The apparatuses, systems, and methods may include a first electrode and a second electrode and a scaffold assembly configured to support the first electrode and the second electrode.Type: ApplicationFiled: November 16, 2022Publication date: March 9, 2023Inventors: Ron A. Balczewski, Jean M. Bobgan, Aleksandra Kharam, David P. Stieper, Scott R. Vanderlinde
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Patent number: 11523746Abstract: Various aspects of the present disclosure are directed toward apparatuses, systems, and methods for supporting components of an implantable medical device. The apparatuses, systems, and methods may include a first electrode and a second electrode and a scaffold assembly configured to support the first electrode and the second electrode.Type: GrantFiled: October 28, 2019Date of Patent: December 13, 2022Assignee: Cardiac Pacemakers, Inc.Inventors: Ron A. Balczewski, Jean M. Bobgan, Aleksandra Kharam, David P. Stieper, Scott R. Vanderlinde
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Publication number: 20220273225Abstract: An apparatus comprises a magnetic field detection circuit, a cardiac signal sensing circuit, a memory circuit, a control circuit, and an arrhythmia detection circuit. The cardiac signal sensing circuit generates a cardiac signal representative of cardiac activity of a subject when coupled to sensing electrodes. The control circuit is operatively coupled to the magnetic field detection circuit; the cardiac signal sensing circuit, and the memory circuit. The control circuit stores cardiac signal data determined using the sensed cardiac signal, receives an indication of magnetic field detection by the magnetic field detection circuit, stores data obtained using the sensed cardiac signal during the magnetic field detection, and stores an identifier indicating the magnetic field detection in association with the data. The arrhythmia detection circuit processes the cardiac signal data to detect a cardiac arrhythmia event and confirm the cardiac arrhythmia event according to the magnetic field indication.Type: ApplicationFiled: May 16, 2022Publication date: September 1, 2022Inventors: Binh C. Tran, Mitchell D. Lanz, Scott R. Vanderlinde
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Patent number: 11357440Abstract: An apparatus comprises a magnetic field detection circuit, a cardiac signal sensing circuit, a memory circuit, a control circuit, and an arrhythmia detection circuit. The cardiac signal sensing circuit generates a cardiac signal representative of cardiac activity of a subject when coupled to sensing electrodes. The control circuit is operatively coupled to the magnetic field detection circuit; the cardiac signal sensing circuit, and the memory circuit. The control circuit stores cardiac signal data determined using the sensed cardiac signal, receives an indication of magnetic field detection by the magnetic field detection circuit, stores data obtained using the sensed cardiac signal during the magnetic field detection, and stores an identifier indicating the magnetic field detection in association with the data. The arrhythmia detection circuit processes the cardiac signal data to detect a cardiac arrhythmia event and confirm the cardiac arrhythmia event according to the magnetic field indication.Type: GrantFiled: January 29, 2019Date of Patent: June 14, 2022Assignee: Cardiac Pacemakers, Inc.Inventors: Binh C. Tran, Mitchell D. Lanz, Scott R. Vanderlinde
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Publication number: 20200383638Abstract: Embodiments of the present disclosure relate to detecting implantable medical device orientation changes. In an exemplary embodiment, a medical device having a processor, comprises an acceleration sensor and memory. The acceleration sensor is configured to generate acceleration data that comprises a plurality of acceleration measurements. The memory comprises instructions that when executed by the processor, cause the processor to: obtain the acceleration data from the acceleration sensor; and determine, based on the acceleration data, that the medical device has flipped.Type: ApplicationFiled: June 8, 2020Publication date: December 10, 2020Inventors: Jonathan Bennett Shute, John D. Hatlestad, Scott R. Vanderlinde
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Publication number: 20200129088Abstract: Various aspects of the present disclosure are directed toward apparatuses, systems, and methods for supporting components of an implantable medical device. The apparatuses, systems, and methods may include a first electrode and a second electrode and a scaffold assembly configured to support the first electrode and the second electrode.Type: ApplicationFiled: October 28, 2019Publication date: April 30, 2020Inventors: Ron A. Balczewski, Jean M. Bobgan, Aleksandra Kharam, David P. Stieper, Scott R. Vanderlinde
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Publication number: 20190231206Abstract: An apparatus comprises a magnetic field detection circuit, a cardiac signal sensing circuit, a memory circuit, a control circuit, and an arrhythmia detection circuit. The cardiac signal sensing circuit generates a cardiac signal representative of cardiac activity of a subject when coupled to sensing electrodes. The control circuit is operatively coupled to the magnetic field detection circuit; the cardiac signal sensing circuit, and the memory circuit. The control circuit stores cardiac signal data determined using the sensed cardiac signal, receives an indication of magnetic field detection by the magnetic field detection circuit, stores data obtained using the sensed cardiac signal during the magnetic field detection, and stores an identifier indicating the magnetic field detection in association with the data. The arrhythmia detection circuit processes the cardiac signal data to detect a cardiac arrhythmia event and confirm the cardiac arrhythmia event according to the magnetic field indication.Type: ApplicationFiled: January 29, 2019Publication date: August 1, 2019Inventors: Binh C. Tran, Mitchell D. Lanz, Scott R. Vanderlinde
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Patent number: 9694187Abstract: Aspects herein include an implantable medical device, such as an implantable cardiac rhythm management device. The implantable medical device can include a housing, control circuitry disposed within the housing, and telemetry circuitry in electrical communication with the control circuitry. The control circuitry can be configured to execute a post-procedural system check procedure after the expiration of a preselected first time period. The first time period can be greater than or equal to 0.5 hours and less than or equal to 48 hours. In various aspects, the post-procedural system check procedure can include measuring diagnostic properties for one or more electrodes of an electrical stimulation lead attached to the implantable medical device. The first time period can begin to elapse after detection of a triggering event or a command by a system operator.Type: GrantFiled: July 15, 2015Date of Patent: July 4, 2017Assignee: Cardiac Pacemakers, Inc.Inventors: Michael Sheehan Seeberger, Scott R. Vanderlinde, Wyatt Keith Stahl, Imelda Wang, Scott H. Thomas
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Publication number: 20160015986Abstract: Aspects herein include an implantable medical device, such as an implantable cardiac rhythm management device. The implantable medical device can include a housing, control circuitry disposed within the housing, and telemetry circuitry in electrical communication with the control circuitry. The control circuitry can be configured to execute a post-procedural system check procedure after the expiration of a preselected first time period. The first time period can be greater than or equal to 0.5 hours and less than or equal to 48 hours. In various aspects, the post-procedural system check procedure can include measuring diagnostic properties for one or more electrodes of an electrical stimulation lead attached to the implantable medical device. The first time period can begin to elapse after detection of a triggering event or a command by a system operator.Type: ApplicationFiled: July 15, 2015Publication date: January 21, 2016Inventors: Michael Sheehan Seeberger, Scott R. Vanderlinde, Wyatt Keith Stahl, Imelda Wang, Scott H. Thomas
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Patent number: 6407931Abstract: A DC to DC converter having a flange attached to the housing. The flange configured to electrically isolate, insulate and shield the DC to DC converter from an underlying circuit board. The flange may be further configured to meet creepage distances and air clearances required by various regulatory and certification agencies.Type: GrantFiled: July 11, 2000Date of Patent: June 18, 2002Assignee: Cardiac Pacemakers, Inc.Inventors: David J. Yonce, Scott T. Mazar, Scott R. Vanderlinde