Patents by Inventor Philip J. Beatty
Philip J. Beatty 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: 20240061059Abstract: A system and method for enhancing magnetic resonance imaging is described. The method includes a declarative style of pulse sequence design that incorporates explicit objectives. Each objective includes the function and context of the waveform; environmental and contextual data; time segment durations; spatial magnetic field profiles of the encoding electromagnets; and performance metrics.Type: ApplicationFiled: February 16, 2023Publication date: February 22, 2024Applicant: SYNAPTIVE MEDICAL INC.Inventors: Chad Tyler HARRIS, Geron Andrè BINDSEIL, Philip J. BEATTY, Andrew Thomas CURTIS
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Patent number: 11686795Abstract: A fat saturation method for a magnetic resonance imaging system having a main magnet providing a magnetic field B0 The method includes: driving a shim coil assembly with a first set of shimming currents to sufficiently alter a B0 field inhomogeneity of the magnetic field B0 within a region that includes a first imaging volume of interest such that water saturation inside the region is reduced from before the first set of shimming currents are applied; applying a fat saturation pulse to the region; identifying the first imaging volume of interest from the region; driving the shim coil assembly with a second set of shimming currents to alter the B0 field inhomogeneity of the magnetic field B0 within the first imaging volume of interest such that the B0 field inhomogeneity within the first imaging volume of interest is reduced; and obtaining magnetic resonance signals from the first imaging volume of interest.Type: GrantFiled: July 7, 2021Date of Patent: June 27, 2023Inventors: Philip J. Beatty, Chad Tyler Harris, Curtis Nathan Wiens
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Patent number: 11675037Abstract: Systems and methods for magnetic field-dependent relaxometry using magnetic resonance imaging (“MRI”) are provided. Relaxation parameters, including longitudinal relaxation time (“T1”) and transverse relaxation time (“T2”), are estimated from magnetic resonance signal data acquired at multiple different magnetic field strengths using the same MRI system. By measuring these relaxation parameters as a function of magnetic field strength, T1 dispersion data, T2 dispersion data, or both, are generated. Based on this dispersion data, quantitative physiological parameters can be estimated. As one example, iron content can be estimated from T2 dispersion data.Type: GrantFiled: March 31, 2021Date of Patent: June 13, 2023Inventors: Chad Tyler Harris, David Mark Deschenes, Alexander Gyles Panther, Jeff Alan Stainsby, Philip J. Beatty
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Patent number: 11624794Abstract: An automatic protocolling system and methods involving a processor operable by way of a set of executable instructions storable in relation to a nontransient memory device, the set of executable instructions configuring the processor to: receive information relating to an initial protocol comprising an initial ordering of a plurality of sequences, the information comprising data relating to an interaction extent value of at least one of an imaging system and a patient as a function of time corresponding to each sequence in the plurality of sequences, the data relating to a time-integrated effect of each sequence in the plurality of sequences; and dynamically determine an alternative protocol comprising an alternative ordering of the plurality of sequences based on the time-integrated effect, whereby an alternative protocol is provided.Type: GrantFiled: August 17, 2021Date of Patent: April 11, 2023Inventors: Chad Tyler Harris, Jeff Alan Stainsby, Andrew Thomas Curtis, Philip J. Beatty, Curtis Nathan Wiens
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Patent number: 11567155Abstract: Described here are systems and methods for mitigating or otherwise removing the effects of short-term magnetic field instabilities caused by oscillations of the cold head in a cryogen-free magnet system used for magnetic resonance systems, such as magnetic resonance imaging (“MRI”) systems, nuclear magnetic resonance (“NMR”) systems, or the like.Type: GrantFiled: September 21, 2020Date of Patent: January 31, 2023Assignee: Synaptive Medical Inc.Inventors: Chad Tyler Harris, Geron Andre Bindseil, Alexander Gyles Panther, Jeff Alan Stainsby, Philip J. Beatty
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Publication number: 20220146612Abstract: An asymmetric electromagnet system, method, and method of producing an asymmetric electromagnet system, wherein the asymmetric electromagnet system is for generating an imaging magnetic field in an imaging region with an imaging isocentre, the imaging region being asymmetrically positioned within a gradient coil bore inside a magnetic resonance imaging (MRI) system during imaging, the electromagnet assembly comprising: an asymmetric gradient coil configured to generate a gradient field in the asymmetrically positioned imaging region, at least one gradient axis having the gradient field with a constant offset component such that the position at which the gradient field passes through zero is offset with respect to the imaging isocentre of the asymmetrically positioned imaging region.Type: ApplicationFiled: January 20, 2022Publication date: May 12, 2022Inventors: Geron Andre BINDSEIL, Blaine Alexander CHRONIK, Ian Robert Oliphant CONNELL, Andrew Thomas CURTIS, William Bradfield HANDLER, Chad Tyler HARRIS, Jeff Alan STAINSBY, Philip J. BEATTY
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Publication number: 20220050160Abstract: An automatic protocolling system and methods involving a processor operable by way of a set of executable instructions storable in relation to a nontransient memory device, the set of executable instructions configuring the processor to: receive information relating to an initial protocol comprising an initial ordering of a plurality of sequences, the information comprising data relating to an interaction extent value of at least one of an imaging system and a patient as a function of time corresponding to each sequence in the plurality of sequences, the data relating to a time-integrated effect of each sequence in the plurality of sequences; and dynamically determine an alternative protocol comprising an alternative ordering of the plurality of sequences based on the time-integrated effect, whereby an alternative protocol is provided.Type: ApplicationFiled: August 17, 2021Publication date: February 17, 2022Applicant: SYNAPTIVE MEDICAL INC.Inventors: Chad Tyler HARRIS, Jeff Alan STAINSBY, Andrew Thomas CURTIS, Philip J. BEATTY, Curtis Nathan WIENS
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Patent number: 11243283Abstract: An asymmetric electromagnet system, method, and method of producing an asymmetric electromagnet system, wherein the asymmetric electromagnet system is for generating an imaging magnetic field in an imaging region with an imaging isocentre, the imaging region being asymmetrically positioned within a gradient coil bore inside a magnetic resonance imaging (MRI) system during imaging, the electromagnet assembly comprising: an asymmetric gradient coil configured to generate a gradient field in the asymmetrically positioned imaging region, at least one gradient axis having the gradient field with a constant offset component such that the position at which the gradient field passes through zero is offset with respect to the imaging isocentre of the asymmetrically positioned imaging region.Type: GrantFiled: July 29, 2020Date of Patent: February 8, 2022Assignee: SYNAPTIVE MEDICAL INC.Inventors: Geron Andre Bindseil, Blaine Alexander Chronik, Ian Robert Oliphant Connell, Andrew Thomas Curtis, William Bradfield Handler, Chad Tyler Harris, Jeff Alan Stainsby, Philip J. Beatty
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Publication number: 20220034983Abstract: An asymmetric electromagnet system, method, and method of producing an asymmetric electromagnet system, wherein the asymmetric electromagnet system is for generating an imaging magnetic field in an imaging region with an imaging isocentre, the imaging region being asymmetrically positioned within a gradient coil bore inside a magnetic resonance imaging (MRI) system during imaging, the electromagnet assembly comprising: an asymmetric gradient coil configured to generate a gradient field in the asymmetrically positioned imaging region, at least one gradient axis having the gradient field with a constant offset component such that the position at which the gradient field passes through zero is offset with respect to the imaging isocentre of the asymmetrically positioned imaging region.Type: ApplicationFiled: July 29, 2020Publication date: February 3, 2022Inventors: Geron Andre BINDSEIL, Blaine Alexander CHRONIK, Ian Robert Oliphant CONNELL, Andrew Thomas CURTIS, William Bradfield HANDLER, Chad Tyler HARRIS, Jeff Alan STAINSBY, Philip J. BEATTY
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Patent number: 11237235Abstract: A method for operating a magnetic resonance imaging (MRI) system that includes: accessing data indicating a first region for imaging a portion of a subject, the portion being placed in a main magnet of the MRI system and the main magnet generating a magnetic field; selecting, from a group of available shimming coils, a first subset of shimming coils arranged and configured such that, when the shimming coils in the first subset are driven, a homogeneity of the magnetic field at the first region is increased; and driving the shimming coils in the selected first subset of shimming coils without driving other shimming coils in the group of available shimming coils such that the homogeneity of the magnetic field at the first region increases relative to the homogeneity of the magnetic field at the first region when the shimming coils of the selected first subset are not driven.Type: GrantFiled: January 27, 2020Date of Patent: February 1, 2022Assignee: SYNAPTIVE MEDICAL INC.Inventors: Chad Tyler Harris, Philip J. Beatty, Alexander Gyles Panther, Jeff Alan Stainsby, David Mark Deschenes
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Publication number: 20210333342Abstract: A fat saturation method for a magnetic resonance imaging system having a main magnet providing a magnetic field B0 The method includes: driving a shim coil assembly with a first set of shimming currents to sufficiently alter a B0 field inhomogeneity of the magnetic field B0 within a region that includes a first imaging volume of interest such that water saturation inside the region is reduced from before the first set of shimming currents are applied; applying a fat saturation pulse to the region; identifying the first imaging volume of interest from the region; driving the shim coil assembly with a second set of shimming currents to alter the B0 field inhomogeneity of the magnetic field B0 within the first imaging volume of interest such that the B0 field inhomogeneity within the first imaging volume of interest is reduced; and obtaining magnetic resonance signals from the first imaging volume of interest.Type: ApplicationFiled: July 7, 2021Publication date: October 28, 2021Inventors: Philip J. Beatty, Chad Tyler Harris, Curtis Nathan Wiens
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Publication number: 20210263121Abstract: Systems and methods for magnetic field-dependent relaxometry using magnetic resonance imaging (“MRI”) are provided. Relaxation parameters, including longitudinal relaxation time (“T1”) and transverse relaxation time (“T2”), are estimated from magnetic resonance signal data acquired at multiple different magnetic field strengths using the same MRI system. By measuring these relaxation parameters as a function of magnetic field strength, T1 dispersion data, T2 dispersion data, or both, are generated. Based on this dispersion data, quantitative physiological parameters can be estimated. As one example, iron content can be estimated from T2 dispersion data.Type: ApplicationFiled: March 31, 2021Publication date: August 26, 2021Inventors: Chad Tyler Harris, David Mark Deschenes, Alexander Gyles Panther, Jeff Alan Stainsby, Philip J. Beatty
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Patent number: 11061092Abstract: A fat saturation method for a magnetic resonance imaging system having a main magnet providing a magnetic field B0 The method includes: driving a shim coil assembly with a first set of shimming currents to sufficiently alter a B0 field inhomogeneity of the magnetic field B0 within a region that includes a first imaging volume of interest such that water saturation inside the region is reduced from before the first set of shimming currents are applied; applying a fat saturation pulse to the region; identifying the first imaging volume of interest from the region; driving the shim coil assembly with a second set of shimming currents to alter the B0 field inhomogeneity of the magnetic field B0 within the first imaging volume of interest such that the B0 field inhomogeneity within the first imaging volume of interest is reduced; and obtaining magnetic resonance signals from the first imaging volume of interest.Type: GrantFiled: January 7, 2020Date of Patent: July 13, 2021Assignee: Synaptive Medical Inc.Inventors: Philip J. Beatty, Chad Tyler Harris, Curtis Nathan Weins
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Publication number: 20210208223Abstract: A fat saturation method for a magnetic resonance imaging system having a main magnet providing a magnetic field B0 The method includes: driving a shim coil assembly with a first set of shimming currents to sufficiently alter a B0 field inhomogeneity of the magnetic field B0 within a region that includes a first imaging volume of interest such that water saturation inside the region is reduced from before the first set of shimming currents are applied; applying a fat saturation pulse to the region; identifying the first imaging volume of interest from the region; driving the shim coil assembly with a second set of shimming currents to alter the B0 field inhomogeneity of the magnetic field B0 within the first imaging volume of interest such that the B0 field inhomogeneity within the first imaging volume of interest is reduced; and obtaining magnetic resonance signals from the first imaging volume of interest.Type: ApplicationFiled: January 7, 2020Publication date: July 8, 2021Inventors: Philip J. Beatty, Chad Tyler Harris, Curtis Nathan Weins
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Patent number: 10969453Abstract: Systems and methods for magnetic field-dependent relaxometry using magnetic resonance imaging (“MRI”] are provided. Relaxation parameters, including longitudinal relaxation time (“T1”) and transverse relaxation time (“T2”), are estimated from magnetic resonance signal data acquired at multiple different magnetic field strengths using the same MRI system. By measuring these relaxation parameters as a function of magnetic field strength, T1 dispersion data, T2 dispersion data, or both, are generated. Based on this dispersion data, quantitative physiological parameters can be estimated. As one example, iron content can be estimated from T2 dispersion data.Type: GrantFiled: January 22, 2016Date of Patent: April 6, 2021Assignee: SYNAPTIVE MEDICAL INC.Inventors: Chad Tyler Harris, David Mark Deschenes, Alexander Gyles Panther, Jeff Alan Stainsby, Philip J. Beatty
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Publication number: 20210003648Abstract: Described here are systems and methods for mitigating or otherwise removing the effects of short-term magnetic field instabilities caused by oscillations of the cold head in a cryogen-free magnet system used for magnetic resonance systems, such as magnetic resonance imaging (“MRI”) systems, nuclear magnetic resonance (“NMR”) systems, or the like.Type: ApplicationFiled: September 21, 2020Publication date: January 7, 2021Inventors: Chad Tyler Harris, Geron Andre Bindseil, Alexander Gyles Panther, Jeff Alan Stainsby, Philip J. Beatty
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Publication number: 20200400765Abstract: A method for operating a magnetic resonance imaging (MRI) system that includes: accessing data indicating a first region for imaging a portion of a subject, the portion being placed in a main magnet of the MRI system and the main magnet generating a magnetic field; selecting, from a group of available shimming coils, a first subset of shimming coils arranged and configured such that, when the shimming coils in the first subset are driven, a homogeneity of the magnetic field at the first region is increased; and driving the shimming coils in the selected first subset of shimming coils without driving other shimming coils in the group of available shimming coils such that the homogeneity of the magnetic field at the first region increases relative to the homogeneity of the magnetic field at the first region when the shimming coils of the selected first subset are not driven.Type: ApplicationFiled: January 27, 2020Publication date: December 24, 2020Inventors: Chad Tyler Harris, Philip J. Beatty, Alexander Gyles Panther, Jeff Alan Stainsby, David Mark Deschenes
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Patent number: 10809330Abstract: Described here are systems and methods for mitigating or otherwise removing the effects of short-term magnetic field instabilities caused by oscillations of the cold head in a cryogen-free magnet system used for magnetic resonance systems, such as magnetic resonance imaging (“MRI”) systems, nuclear magnetic resonance (“NMR”) systems, or the like.Type: GrantFiled: March 9, 2016Date of Patent: October 20, 2020Assignee: Synaptive Medical (Barbados) Inc.Inventors: Chad Tyler Harris, Geron Andre Bindseil, Alexander Gyles Panther, Jeff Alan Stainsby, Philip J. Beatty
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Patent number: 10551454Abstract: A method for operating a magnetic resonance imaging (MRI) system that includes: accessing data indicating a first region for imaging a portion of a subject, the portion being placed in a main magnet of the MRI system and the main magnet generating a magnetic field; selecting, from a group of available shimming coils, a first subset of shimming coils arranged and configured such that, when the shimming coils in the first subset are driven, a homogeneity of the magnetic field at the first region is increased; and driving the shimming coils in the selected first subset of shimming coils without driving other shimming coils in the group of available shimming coils such that the homogeneity of the magnetic field at the first region increases relative to the homogeneity of the magnetic field at the first region when the shimming coils of the selected first subset are not driven.Type: GrantFiled: April 10, 2015Date of Patent: February 4, 2020Assignee: Synaptive Medical (Barbados) Inc.Inventors: Chad Tyler Harris, Philip J. Beatty, Alexander Gyles Panther, Jeff Alan Stainsby, David Mark Deschenes
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Publication number: 20190033403Abstract: Described here are systems and methods for mitigating or otherwise removing the effects of short-term magnetic field instabilities caused by oscillations of the cold head in a cryogen-free magnet system used for magnetic resonance systems, such as magnetic resonance imaging (“MRI”) systems, nuclear magnetic resonance (“NMR”) systems, or the like.Type: ApplicationFiled: March 9, 2016Publication date: January 31, 2019Inventors: Chad Tyler Harris, Geron Andre Bindseil, Alexander Gyles Panther, Jeff Alan Stainsby, Philip J. Beatty