Real-time shimming of polarizing field in magnetic resonance system
First Claim
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1. A method for performing a magnetic resonance imaging scan of a subject with a magnetic resonance imaging (MRI) system, the steps comprise:
- a) performing a baseline shim navigator pulse sequence with the MRI system to acquire baseline shim navigator data indicative of the polarizing magnetic field magnitude along a selected direction across the subject;
b) performing a series of imaging pulse sequences with the MRI system to acquire image data from which one or more images of the subject may be reconstructed;
c) performing a series of shim navigator pulse sequences with the MRI system which are interleaved with the series of imaging pulse sequences to acquire shim navigator data indicative of the polarizing magnetic field magnitude along the selected direction across the subject prior to the performance of each imaging pulse sequence;
d) calculating the change in polarizing magnetic field magnitude prior to performing each imaging pulse sequence using shim navigator data and baseline shim navigator data; and
e) changing a scan parameter in the imaging pulse sequence based on the calculated change in polarizing magnetic field magnitude.
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Abstract
An fMRI scan is performed with an MRI system in which a series of single shot EPI pulse sequences are performed to acquire a series of images. A shim navigator pulse sequence is interleaved with the EPI pulse sequence to acquire data with which the MRI system polarizing magnetic field can be measured. Measured changes in the polarizing field during the scan are employed to calculate corrective changes in the scan parameters that offset phase errors caused by changes in the polarizing field.
47 Citations
18 Claims
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1. A method for performing a magnetic resonance imaging scan of a subject with a magnetic resonance imaging (MRI) system, the steps comprise:
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a) performing a baseline shim navigator pulse sequence with the MRI system to acquire baseline shim navigator data indicative of the polarizing magnetic field magnitude along a selected direction across the subject;
b) performing a series of imaging pulse sequences with the MRI system to acquire image data from which one or more images of the subject may be reconstructed;
c) performing a series of shim navigator pulse sequences with the MRI system which are interleaved with the series of imaging pulse sequences to acquire shim navigator data indicative of the polarizing magnetic field magnitude along the selected direction across the subject prior to the performance of each imaging pulse sequence;
d) calculating the change in polarizing magnetic field magnitude prior to performing each imaging pulse sequence using shim navigator data and baseline shim navigator data; and
e) changing a scan parameter in the imaging pulse sequence based on the calculated change in polarizing magnetic field magnitude. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
i) registering the baseline shim navigator data with the shim navigator data; and
ii) calculating the phase difference between the registered baseline shim navigator data and the shim navigator data.
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12. The method as recited in claim 11 in which step e) is performed by:
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iii) calculating a change in a magnetic field gradient employed in the imaging pulse sequence; and
iv) changing the magnetic field gradient employed in the subsequent imaging pulse sequence.
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13. The method as recited in claim 1 in which the imaging pulse sequence includes a readout gradient waveform that directs the MRI system to produce a magnetic field gradient that alternates in polarity to define a plurality of data acquisition windows during which a corresponding plurality of NMR signals are acquired, and the changed scan parameter is a shim compensation gradient applied between each data acquisition.
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14. The method as recited in claim 13 in which the shim compensation gradient is added to the readout gradient waveform.
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15. The method as recited in claim 13 in which the imaging pulse sequence includes a phase encoding gradient waveform that directs the MRI system to produce a magnetic field gradient in a direction orthogonal to the readout gradient, and in which the shim compensation gradient is added to the phase encoding gradient waveform.
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16. A method for performing a magnetic resonance imaging scan of a subject with a magnetic resonance imaging (MRI) system, the steps comprising:
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a) performing a series of imaging pulse sequences with the MRI system to acquire image data from an imaging volume and from which one or more images of the subject may be reconstructed;
b) performing a series of shim navigator pulse sequences with the MRI system which are interleaved with the series of imaging pulse sequences to acquire shim navigator data indicative of a polarizing magnetic field magnitude;
c) calculating changes in the polarizing magnetic field within the imaging volume using acquired shim navigator data; and
d) prospectively changing the imaging pulse sequence during the performance of step a) to compensate for changes in the polarizing magnetic field that occur in the imaging volume;
where performance of the shim navigator pulse sequence includes;
i) producing an RF excitation pulse that produces transverse magnetization throughout the imaging volume;
ii) producing a readout magnetic field gradient along one direction, which alternates in polarity to produce two shim navigator echo signals that are separated in time; and
iii) acquiring the two shim navigator echo signals. - View Dependent Claims (17, 18)
Fourier transforming the two shim navigator echo signals; and
calculating the phase difference between the two transformed shim navigator echo signals.
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18. The method as recited in claim 16 in which the changes calculated in step c) include changes in the polarizing field within the imaging volume in the one direction of the shim navigator pulse sequence readout gradient.
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Current AssigneeMayo Foundation For Medical Education And Research (Mayo Clinic)
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Original AssigneeMayo Foundation For Medical Education And Research (Mayo Clinic)
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InventorsWard, Heidi A., Jack, Clifford R. Jr., Riederer, Stephen J.
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Primary Examiner(s)Lefkowitz, Edward
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Assistant Examiner(s)Shrivastav, Brij B.
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Application NumberUS09/896,549Time in Patent Office487 DaysField of Search324/309, 324/307, 324/312, 324/314, 324/318, 324/320, 128/653.2, 600/410, 600/413US Class Current324/309CPC Class CodesG01R 33/3875 using correction coil assem...G01R 33/54 Signal processing systems, ...
