Patents by Inventor Chad Giese
Chad Giese 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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Patent number: 8260395Abstract: An area of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of an area or volume can be determined based upon the sensing of the plurality of points without the use of an imaging device. An implantable medical device can then be navigated relative to the mapping data.Type: GrantFiled: May 8, 2008Date of Patent: September 4, 2012Assignee: Medtronic, Inc.Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ioana Fleming, David Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven Waldhauser, Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner
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Patent number: 8214018Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: GrantFiled: April 13, 2009Date of Patent: July 3, 2012Assignee: Medtronic, Inc.Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ioana Fleming, David A. Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20120130232Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: January 26, 2012Publication date: May 24, 2012Applicants: Regents of the University of Minnesota, Medtronic, Inc.Inventors: H. Toby Markowitz, Ioana Fleming, Chad Giese, Mustafa Karamanoglu, Karl Evan Nowak, David A. Scanlon
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Patent number: 8185192Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: GrantFiled: April 15, 2009Date of Patent: May 22, 2012Assignees: Regents of the University of Minnesota, Medtronic, Inc.Inventors: H. Toby Markowitz, David Scanlon, Mustafa Karamanoglu, Karl Evan Nowak, Chad Giese
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Patent number: 8135467Abstract: Bio-impedance may be used for navigation systems to chronically implant pacing and defibrillation leads in the heart using a non-fluoroscopic position sensing unit (PSU). Such a system requires that a conductive material, such as a retractable helical tip-electrode, be exposed during implantation. Since the tip is retracted during implantation, this disclosure provides a modified distal portion employing at least one aperture (or “window”) for fluid exposure of the helix-electrode and a deployable internal sleeve for covering the aperture(s) when the helix-electrode is extended.Type: GrantFiled: June 26, 2009Date of Patent: March 13, 2012Assignee: Medtronic, Inc.Inventors: H. Toby Markowitz, Chad Giese, Steven L. Waldhauser
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Patent number: 8106905Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: GrantFiled: April 15, 2009Date of Patent: January 31, 2012Assignee: Medtronic, Inc.Inventors: H. Toby Markowitz, David Scanlon, Ioana Fleming, Mustafa Karamanoglu, Karl Evan Nowak, Chad Giese
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Publication number: 20100004724Abstract: Bio-impedance may be used for navigation systems to chronically implant pacing and defibrillation leads in the heart using anon-fluoroscopic position sensing unit (PSU), such as a modified LocaLisa® system from Medtronic Inc., which allows for variable frequency sampling of the position of electrode of a catheter. The PSU injects small AC signals via surface electrodes in three orthogonal axes, each on a slightly different frequency (e.g., near 30 KHz). Indwelling electrodes electrically connected to the PSU resolves the magnitude of induced voltage for each of the three frequencies, thus measuring voltage for each of the three axes. Voltages are divided by induced current to yield impedance in each axis for each electrode. Impedance is proportional to position within the body. Such a system requires that a conductive material, such as a retractable helical tip-electrode, be exposed during implantation.Type: ApplicationFiled: June 26, 2009Publication date: January 7, 2010Applicant: MEDTRONIC, INC.Inventors: H. Toby Markowitz, Chad Giese, Steven L. Waldhauser
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Publication number: 20090267773Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 13, 2009Publication date: October 29, 2009Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ioana Fleming, David A. Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20090264739Abstract: A system for determining a location of an instrument within an anatomy is provided. The system can include a first instrument, which can define at least one lumen. The system can further include a second instrument, which can be received through the at least one lumen. The system can include at least one electrode, which can be coupled to a distal end of the first instrument. The electrode can be responsive to electrical activity to generate at least one signal. The system can include a sensing unit, which can be in contact with the anatomy to sense electrical activity within the anatomy at a location near the instrument. The sensing unit can be in communication with the electrode to receive the signal. The system can further include a control module that can determine, based on the sensed electrical activity and the signal, the location of the first instrument.Type: ApplicationFiled: April 9, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Chad Giese, Jeff Jannicke, Steven L. Waldhauser
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Publication number: 20090262980Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 13, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ioana Fleming, David A. Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20090264751Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 15, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Sean Campbell-Massa, Phillip Falkner, Ioana Fleming, Chad Giese, Mustafa Karamanoglu, Michael Kryger, Karl Evan Nowak, Pooja Mehta, James Steeves, Lane A. Phillips, Shangqian Peter Zhang, Steven L. Waldhauser, David A. Scanlon, Brian Houston Craig, Eduardo N. Warman, Koen Michels, Marie P. Smith, Noelle Christine Hurtig, Olaf Eick, Rogier Receveur, Vincent Larik, Brent Chelgren, Victoria Interrante
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Publication number: 20090264743Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 14, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ioana Fleming, David A. Scanion, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20090264745Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 14, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Iona Fleming, David A. Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20090264778Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 14, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ionana Fleming, David A. Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20090264749Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 15, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Sean Campbell-Massa, Phillip Falkner, Ioana Fleming, Chad Giese, Mustafa Karamanoglu, Michael Kryger, Karl Evan Nowak, Pooja Mehta, James Steeves, Lane A. Phillips, Shangqian Peter Zhang, Steven L. Waldhauser, David A. Scanlon, Brian Houston Craig, Eduardo N. Warman, Koen Michels, Marie P. Smith, Noelle Christine Hurtig, Olaf Eick, Rogier Receveur, Vincent Larik, Brent Chelgren, Victoria Interrante
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Publication number: 20090262982Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 14, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ioana Fleming, David A. Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hefner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20090264750Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 15, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Sean Campbell-Massa, Phillip Falkner, Ioana Fleming, Chad Giese, Mustafa Karamanoglu, Michael Kryger, Karl Evan Nowak, Pooja Mehta, James Steeves, Lane A. Phillips, Shangqian Peter Zhang, Steven L. Waldhauser, David A. Scanlon, Brian Houston Craig, Eduardo N. Warman, Koen Michels, Marie P. Smith, Noelle Christine Hurtig, Olaf Eick, Rogier Receveur, Vincent Larik, Brent Chelgren, Victoria Interrante
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Publication number: 20090264747Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 15, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Sean Campbell-Massa, Phillip Falkner, Ioana Fleming, Chad Giese, Mustafa Karamanoglu, Michael Kryger, Karl Evan Nowak, Pooja Mehta, James Steevens, Lane A. Phillips, Shangqian Peter Zhang, Steven L. Waldhauser, David Scanlon, Brian Houston Craig, Eduardo N. Warman, Marie P. Smith, Noelle Christine Hurtig, Olaf Eick, Rogier Receveur, Vincent Larik, Brent Chelgren, Victoria Interrante
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Publication number: 20090264738Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 9, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Mustafa Karamanoglu, Pooja Mehta, Ioana Fleming, David Scanlon, Michael Kryger, Sean Campbell-Massa, Chad Giese, Steven L. Waldhauser, Shangqian Peter Zhang, Jeff Jannicke, Phillip Falkner, Don Hafner, Eduardo N. Warman, James Steeves, Rogier Receveur, Koen Michels, Olaf Eick, Vincent Larik
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Publication number: 20090264727Abstract: An volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.Type: ApplicationFiled: April 9, 2009Publication date: October 22, 2009Inventors: H. Toby Markowitz, Sean Campbell-Massa, Phillip Falkner, Ioana Fleming, Chad Giese, Mustafa Karamanoglu, Michael Kryger, Karl Evan Nowak, Pooja Mehta, James Steeves, Lane A. Phillips, Shangqian Peter Zhang, Steven L. Waldhauser, David A. Scanlon, Brian Houston Craig, Eduardo N. Warman, Koen Michels, Marie P. Smith, Noelle Christine Hurtig, Olaf Eick, Rogier Receveur, Vincent Larik, Brent Chelgren, Victoria Interrante