Power measurement on magnetic resonance imaging coil at different frequency than Larmor frequency
First Claim
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1. A method of acquiring data related to motion of a subject with a coil of a magnetic resonance imaging (MRI) system for use in the acquisition of MR data for imaging a region of the subject, said method comprising the steps of:
- providing an MRI system having a first signal generator, the coil arranged with radio-frequency components;
assembling a setup to include a second signal generator, an amplifier, a directional coupler, a power sensor, a data processing system, and a logic circuit in combination with a switching circuit, wherein the MRI system is interconnected with the setup by way of the switching circuit;
applying at least a first resonance frequency to the coil from the first signal generator of the MRI system, wherein the first resonance frequency is an imaging frequency;
tuning at least a second resonance frequency to the coil, wherein the second resonance frequency is a predetermined frequency generated from the second signal generator external to the MRI system, the predetermined frequency at a mode applied for measurement of a physiological attribute associated with the subject, wherein the predetermined frequency is a different frequency than the imaging frequency;
directing the signal through the amplifier and adjusting signal gain by the amplifier;
routing the signal through the directional coupler;
measuring reflected power from the coil by way of the power sensor;
decoupling from the coil during MRI radio-frequency (RF) excitation and measurement; and
processing data by way of the data processing system for visualization and storage;
wherein the imaging frequency is used to generate imaging data and wherein the predetermined frequency is used to measure impedance directly on the coil.
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Abstract
The system of the invention utilizes a magnetic resonance imaging (MRI) coil to measure power at a different frequency than the MRI frequency to produce MRI images. The different frequency such as harmonic frequency of the MR coil is applied to the coil and the reflected power is measured by the power sensor. Changes due to respiratory, cardiac, or overall motion are then analyzed, as desired. During imaging, the coil is connected to the MRI system and disconnected from the setup described, including the power sensor and its associated data processing, amplifier, signal generator, and directional coupler. Disconnect is provided in a one-step process by the switching circuit. Using the reflected power of a different frequency than the resonant frequencies of an MR coil improves signal information because it does not interfere with MR imaging process, is independent of patient and position, depicts the mechanical motion of the chest or organs near to the coil, and also measures irregular physiological activities with enough temporal resolution to describe these physiological changes.
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Citations
22 Claims
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1. A method of acquiring data related to motion of a subject with a coil of a magnetic resonance imaging (MRI) system for use in the acquisition of MR data for imaging a region of the subject, said method comprising the steps of:
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providing an MRI system having a first signal generator, the coil arranged with radio-frequency components; assembling a setup to include a second signal generator, an amplifier, a directional coupler, a power sensor, a data processing system, and a logic circuit in combination with a switching circuit, wherein the MRI system is interconnected with the setup by way of the switching circuit;
applying at least a first resonance frequency to the coil from the first signal generator of the MRI system, wherein the first resonance frequency is an imaging frequency;tuning at least a second resonance frequency to the coil, wherein the second resonance frequency is a predetermined frequency generated from the second signal generator external to the MRI system, the predetermined frequency at a mode applied for measurement of a physiological attribute associated with the subject, wherein the predetermined frequency is a different frequency than the imaging frequency; directing the signal through the amplifier and adjusting signal gain by the amplifier; routing the signal through the directional coupler; measuring reflected power from the coil by way of the power sensor; decoupling from the coil during MRI radio-frequency (RF) excitation and measurement; and processing data by way of the data processing system for visualization and storage; wherein the imaging frequency is used to generate imaging data and wherein the predetermined frequency is used to measure impedance directly on the coil. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A motion detection system for monitoring a range of physiological motion of a subject comprising:
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a magnetic resonance imaging (MRI) system that produces an imaging frequency to a coil, wherein the coil is internal to the MRI system; a signal generator that produces a signal of a predetermined frequency at a mode applied for measurement of a physiological attribute associated with the subject, wherein the predetermined frequency is a different frequency than the imaging frequency applied to the coil; an amplifier that adjusts signal gain as the signal passes therethrough; a directional coupler through which the signal is routed; a plurality of radio-frequency (RF) components surrounding the subject in the MRI system; a power sensor that measures reflected power from the coil; a data processing system to filter and store data; and a logic circuit that analyzes excitation states during imaging, the excitation states provided by the MR system; wherein the signal generator, the amplifier, the directional coupler, the power sensor, the data processing system, and the logic circuit form a setup to account for overall motion of the subject that operates in combination with a switching circuit such that imaging data is acquired at a designated region of the subject when the coil is connected to the MRI system and disconnected from the setup; and
wherein the different frequency is a non-Larmor frequency.- View Dependent Claims (16, 17, 18, 19, 20)
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21. A method of acquiring data related to motion of a subject with a coil of a magnetic resonance imaging (MRI) system for use in the acquisition of MR data for imaging a region of the subject, said method comprising the steps of:
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providing an MRI system to include a signal generator and arranging the coil with radio-frequency components, wherein the MRI system is interconnected with the setup by way of a switching circuit; assembling a setup to include the signal generator, an amplifier, a directional coupler, a power sensor, a data processing system, and a logic circuit in combination with the switching circuit; applying at least a first resonance frequency to the coil, wherein the first resonance frequency is an imaging frequency generated from the signal generator; generating a signal from the signal generator to produce at least a second resonance frequency, wherein the second resonance frequency is a predetermined frequency generated from the signal generator, the predetermined frequency at a mode applied for measurement of a physiological attribute associated with the subject, wherein the predetermined frequency is a different frequency than the imaging frequency; applying the predetermined frequency to the coil, directing the signal through the amplifier and adjusting signal gain by the amplifier; routing the signal through the directional coupler; measuring reflected power from the coil by way of the power sensor; decoupling from the coil during MRI radio-frequency (RF) excitation and measurement; and processing data by way of the data processing system for visualization and storage; wherein the imaging frequency generates imaging data and wherein the predetermined frequency is used to measure impedance directly on the coil. - View Dependent Claims (22)
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Specification
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Current AssigneeCentre Hospitalier Regional De Nancy, General Electric Company, Universite De Lorraine (Government of France)
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Original AssigneeGeneral Electric Company
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InventorsKudielka, Guido Peter, Vuissoz, Pierre-Andre, Felblinger, Jacques
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Primary Examiner(s)Arana, Louis
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Application NumberUS14/324,334Publication NumberTime in Patent Office1,499 DaysField of Search324318, 324322US Class CurrentCPC Class CodesA61B 5/055 involving electronic [EMR] ...A61B 5/1126 using a particular sensing ...A61B 5/7292 Prospective gating, i.e. pr...G01R 33/34076 Birdcage coilsG01R 33/3635 Multi-frequency operationG01R 33/3664 Switching for purposes othe...G01R 33/56509 due to motion, displacement...G01R 33/5673 Gating or triggering based ...
