Patents by Inventor Gregg S. Stenzel
Gregg S. Stenzel 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: 20160158509Abstract: An actively tracked medical device comprising: a dilator having an inner tubular main body having a distal end and a proximal end, said tubular main body including at least first and second receiving channels positioned in a spaced apart relationship on an outer surface of said tubular main body; a region at the distal end of said tubular main body for supporting one or more tracking coils; an atrumatic tip portion operably coupled and positioned distal to said main body; a lumen extending through said tubular main body, said tip support and said atraumatic tip portion; and an outer polymer body having first and second ends, said outer polymer body operably covering said inner tubular main body and said tracking coils, said first end terminating adjacent a proximal end of said atraumatic tip portion and said second end terminating adjacent said hub.Type: ApplicationFiled: July 29, 2014Publication date: June 9, 2016Inventors: Steven R. Wedan, Thomas W. Lloyd, Bryan A. Brutlag, Gregg S. Stenzel, Scott Kimmel
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Publication number: 20160161575Abstract: A composite tracking system for a medical device comprises a field location tracking system including at least one field location sensor structured to be coupled to a medical device, a magnetic resonance tracking system including at least one tracking coil structured to be coupled to a medical device, and a composite tracking processor operably coupled to the field location tracking system and the magnetic resonance tracking system. The composite tracking processor is operable to receive and process field location parameters from the field location tracking system and positional coordinates from the magnetic resonance tracking system to register a field location coordinate system to a magnetic resonance coordinate system.Type: ApplicationFiled: January 29, 2016Publication date: June 9, 2016Inventors: Steven R. Wedan, Thomas W. Lloyd, Gregg S. Stenzel
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Patent number: 9271664Abstract: A composite tracking system for a medical device comprises a field location tracking system including at least one field location sensor structured to be coupled to a medical device, a magnetic resonance tracking system including at least one tracking coil structured to be coupled to a medical device, and a composite tracking processor operably coupled to the field location tracking system and the magnetic resonance tracking system. The composite tracking processor is operable to receive and process field location parameters from the field location tracking system and positional coordinates from the magnetic resonance tracking system to register a field location coordinate system to a magnetic resonance coordinate system.Type: GrantFiled: March 4, 2010Date of Patent: March 1, 2016Assignee: IMRICOR MEDICAL SYSTEMS, INC.Inventors: Steven R. Wedan, Thomas W. Lloyd, Gregg S. Stenzel
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Patent number: 9265442Abstract: A method of calibrating field location tracking to magnetic resonance tracking is provided. The method of calibration field location tracking includes moving a medical device throughout a plurality of points within a patient volume; tracking the medical device with a field location tracking system and a magnetic resonance tracking system; calculating a plurality of magnetic resonance tracking locations; determining a plurality of field location parameters that correspond to the plurality of magnetic resonance tracking locations; and creating a transfer function that maps the field location parameters to the magnetic resonance tracking locations, wherein the transfer function registers a field location coordinate system to a magnetic resonance coordinate system.Type: GrantFiled: October 15, 2012Date of Patent: February 23, 2016Assignee: IMRICOR MEDICAL SYSTEMS, INC.Inventors: Steven R. Wedan, Thomas W. Lloyd, Gregg S. Stenzel
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Patent number: 9192743Abstract: A method of using a MR compatible deflectable catheter is provided. The MR compatible deflectable catheter includes a steerable sheath having a tubular shaft. The tubular shaft receives first and second longitudinal movement wires at a distal end thereof. A control handle is coupled to a proximal end of the first and second longitudinal movement wires and causes longitudinal movement of the wires. Longitudinal movement of the wires causes the catheter to deflect approximately 180 degrees.Type: GrantFiled: May 6, 2015Date of Patent: November 24, 2015Assignee: IMRICOR MEDICAL SYSTEMS, INC.Inventors: Gregg S. Stenzel, Bryan Brutlag, Steven R. Wedan, Douglas A. Page, Thomas W. Lloyd, James Alan Kalthoff
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Patent number: 9151811Abstract: A temperature monitoring system for a medical device comprises an optical transmit/receive unit, an elongate optical fiber having a proximal end, a distal end, and an inner core extending between the proximal end and the distal end, and one or more fiber Bragg grating elements formed in the inner core of the optical fiber. The optical fiber is operably coupled to the transmit/receive unit at the proximal end. At least a portion of the optical fiber is also operably coupled to a medical device and is structured to measure temperature at one or more temperature sensing locations on the medical device.Type: GrantFiled: March 4, 2010Date of Patent: October 6, 2015Assignee: IMRICOR MEDICAL SYSTEMS, INC.Inventors: Steven J. Jester, Gregg S. Stenzel, Steven R. Wedan, Peter Gabrail
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Patent number: 9138561Abstract: An MR compatible deflectable catheter and method of using the same is provided. The MR compatible deflectable catheter includes a steerable sheath having a tubular shaft. The tubular shaft receives first and second longitudinal movement wires at a distal end thereof. A control handle is coupled to a proximal end of the first and second longitudinal movement wires and causes longitudinal movement of the wires.Type: GrantFiled: December 13, 2013Date of Patent: September 22, 2015Assignee: IMRICOR MEDICAL SYSTEMS, INC.Inventors: Gregg S. Stenzel, Bryan A. Brutlag, Steven R. Wedan, Douglas A. Page, Thomas W. Lloyd, James Alan Kalthoff
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Publication number: 20150231365Abstract: A method of using a MR compatible deflectable catheter is provided. The MR compatible deflectable catheter includes a steerable sheath having a tubular shaft. The tubular shaft receives first and second longitudinal movement wires at a distal end thereof. A control handle is coupled to a proximal end of the first and second longitudinal movement wires and causes longitudinal movement of the wires. Longitudinal movement of the wires causes the catheter to deflect approximately 180 degrees.Type: ApplicationFiled: May 6, 2015Publication date: August 20, 2015Inventors: Gregg S. Stenzel, Bryan Brutlag, Steven R. Wedan, Douglas A. Page, Thomas W. Lloyd, James Alan Kalthoff
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Patent number: 8855788Abstract: An MRI compatible electrode circuit construct is provided. The construct includes at least two filter components constructed from an electrode wire. One filter component may be a resonant LC filter at or near an electrode/wire interface that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode. The second filter component may include one or more non-resonant filter(s) positioned along the length of the electrode wire that resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the wire before it reaches the resonant LC filter. The non-resonant filter(s) may also attenuate the RF current reflected from the resonant LC filter thereby resolving the issue of the strong reflected power from the resonant filter and the associated dielectric heating.Type: GrantFiled: October 29, 2013Date of Patent: October 7, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Patent number: 8843213Abstract: An MRI compatible lead assembly construct is provided. The construct includes at least two filter components constructed from an electrode wire. One filter component may be a resonant LC filter proximate an electrode that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode. The second filter component may include a non-resonant filter(s) positioned along the length of the electrode wire by co-radially winding at least two electrode wires. The non-resonant filter resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the wire before it reaches the resonant LC filter.Type: GrantFiled: October 25, 2013Date of Patent: September 23, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Patent number: 8843212Abstract: An MRI compatible lead assembly construct is provided. The construct includes at least two filter components constructed from an electrode wire. One filter component may be a resonant LC filter at or near an electrode/wire interface that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode. The second filter component may include one or more non-resonant filter(s) positioned along the length of the electrode wire that resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the wire before it reaches the resonant LC filter. The non-resonant filter(s) may also attenuate the RF current reflected from the resonant LC filter thereby resolving the issue of the strong reflected power from the resonant filter and the associated dielectric heating.Type: GrantFiled: October 25, 2013Date of Patent: September 23, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Patent number: 8831743Abstract: An MRI compatible electrode circuit construct is provided. The construct includes at least two filter components constructed from an electrode wire. One filter component may be a single or multiple layer resonant LC filter positioned proximate an electrode that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode. The second filter component may include one or more non-resonant filter(s) positioned along the length of the electrode wire that resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the wire before it reaches the resonant LC filter. The resonant LC filter may also be positioned distal to the end of the non-resonant filters with the non-resonant filters proximate the electrode.Type: GrantFiled: March 15, 2013Date of Patent: September 9, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Patent number: 8805540Abstract: An MRI compatible cable construct is provided. The cable is adapted to be used with a medical device in direct electrical contact with a patient. Each cable or cable set includes a plurality of filter components. The filter component comprises at least two filter components. One filter component may be a resonant filter at a distal end that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the cable from exiting the cable at the distal. The second filter component may comprise one or more non-resonant filter(s) or inductors positioned along the length of the cable that resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the cable before it reaches the resonant LC filter.Type: GrantFiled: March 15, 2013Date of Patent: August 12, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Patent number: 8761900Abstract: An MRI compatible electrode circuit construct is provided. The construct includes at least two filter components constructed from an electrode wire. One filter component may be a resonant LC filter at or near an electrode/wire interface that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode. The second filter component may include one or more non-resonant filter(s) positioned along the length of the electrode wire that resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the wire before it reaches the resonant LC filter. The non-resonant filter(s) may also attenuate the RF current reflected from the resonant LC filter thereby resolving the issue of the strong reflected power from the resonant filter and the associated dielectric heating.Type: GrantFiled: October 29, 2013Date of Patent: June 24, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Patent number: 8761899Abstract: An MRI compatible electrode circuit construct is provided. The construct includes at least three filter components constructed from a continuous or non-continuous electrode wire. One filter component may be a resonant LC filter proximate an electrode/wire interface. A second filter component may be a resonant LC filter adjacent a proximal termination of the wire construct. The filters resolve the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode and at the terminal or proximal end. The third filter component may include one or more non-resonant filter(s) positioned along the length of the electrode wire that resolve(s) the issue of excessive heating of the resonant LC filters by significantly attenuating the current induced on the wire before it reaches the resonant LC filters.Type: GrantFiled: March 15, 2013Date of Patent: June 24, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Patent number: 8731687Abstract: An MRI compatible electrode circuit construct is provided. The construct includes at least two filter components constructed from an electrode wire. One filter component may be a resonant LC filter at or near an electrode/wire interface that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode. The second filter component may include one or more non-resonant filter(s) positioned along the length of the electrode wire that resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the wire before it reaches the resonant LC filter. The non-resonant filter(s) may also attenuate the RF current reflected from the resonant LC filter thereby resolving the issue of the strong reflected power from the resonant filter and the associated dielectric heating.Type: GrantFiled: February 13, 2012Date of Patent: May 20, 2014Assignee: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel
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Publication number: 20140132267Abstract: An active tracking system that overcomes the heating problems of conventional transmission line and signal line conductors is provided. The active tracking system includes at least one active tracking coil; at least one integrated circuit proximate the active tracking coil; a tracking receiver; a first MR safe means configured for transmitting a received signal to the tracking receiver; and a second MR safe means configured for communicating one or more signals from the tracking receiver to the integrated circuit at coil. The integrated circuit may also include frequency estimations, analog to digital conversion at the tracking coil location to reduce the amount of processing required in the tracking receiver thereby decreasing the potential for signals passing from the tracking coil location to the tracking receiver to interfere with MR imaging signals.Type: ApplicationFiled: December 13, 2012Publication date: May 15, 2014Applicant: IMRICOR MEDICAL SYSTEMS, INC.Inventors: Steven R. Wedan, Thomas W. Lloyd, Gregg S. Stenzel
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Publication number: 20140135745Abstract: An MR compatible deflectable catheter and method of using the same is provided. The MR compatible deflectable catheter includes a steerable sheath having a tubular shaft. The tubular shaft receives first and second longitudinal movement wires at a distal end thereof. A control handle is coupled to a proximal end of the first and second longitudinal movement wires and causes longitudinal movement of the wires.Type: ApplicationFiled: December 13, 2012Publication date: May 15, 2014Inventors: Gregg S. Stenzel, Steven R. Wedan, Doug A. Page, Thomas W. Lloyd, James Alan Kalthoff
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Publication number: 20140100445Abstract: An MR compatible deflectable catheter and method of using the same is provided. The MR compatible deflectable catheter includes a steerable sheath having a tubular shaft. The tubular shaft receives first and second longitudinal movement wires at a distal end thereof A control handle is coupled to a proximal end of the first and second longitudinal movement wires and causes longitudinal movement of the wires.Type: ApplicationFiled: December 13, 2013Publication date: April 10, 2014Applicant: IMRICOR MEDICAL SYSTEMS, INC.Inventors: Gregg S. Stenzel, Bryan Brutlag, Steven R. Wedan, Doug A. Page, Thomas W. Lloyd, James Alan Kalthoff
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Publication number: 20140088673Abstract: An MRI compatible lead assembly construct is provided. The construct includes at least two filter components constructed from an electrode wire. One filter component may be a resonant LC filter proximate an electrode that resolves the issue of insufficient attenuation by effectively blocking the RF induced current on the wire from exiting the wire through the electrode. The second filter component may include a non-resonant filter(s) positioned along the length of the electrode wire by co-radially winding at least two electrode wires. The non-resonant filter resolve(s) the issue of excessive heating of the resonant LC filter by significantly attenuating the current induced on the wire before it reaches the resonant LC filter.Type: ApplicationFiled: October 25, 2013Publication date: March 27, 2014Applicant: Imricor Medical Systems, Inc.Inventors: Thomas W. Lloyd, Steven R. Wedan, Gregg S. Stenzel