MRI system and MR imaging method
First Claim
Patent Images
1. An MRI system for obtaining a blood flow image of a region to be imaged of an object, said system comprising:
- temporal phase detecting means for detecting a signal indicative of a particular cardiac temporal phase of the object;
scan performing means for performing a three-dimensional pulse sequence for said region of the object, the three-dimensional pulse sequence being repeated a plurality of times with slice encodes incorporated in the three dimensional pulse sequence being changed in synchronism with each of a plurality of mutually different image delay times set with respect to the signal indicative of a particular cardiac temporal phase;
echo data acquiring means for acquiring a plurality of sets of three-dimensional echo data generated respectively in response to the repeated performance of the three-dimensional pulse sequence; and
data processing means for processing the plurality of sets of echo data into date of the blood flow image in which both an artery and a vein of the object are visually separated from each other.
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Abstract
Without injecting a contrast medium, blood pumped out from the heart can preferably be depicted in a non-invasive fashion, resulting in a greatly shortened scanning time for data acquisition. An MRI system temporal phase detector acquires an ECG signal of an object, and an imaging scanner performs a three-dimensional scanning pulse sequence every slice encoding in synchronism with an ECG signal. The pulse sequence includes an RF excitation pulse for which a repetition time is set to be shorter than conventional. In addition, the pulse sequence includes a slice-directional gradient for performing data acquisition based on the slice encoding in an approximately parallel direction to a running direction of blood flow. Furthermore, the pulse sequence includes a phase-encoding directional gradient for applying phase encoding in a direction approximately coinciding with a running direction of the blood flow.
60 Citations
20 Claims
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1. An MRI system for obtaining a blood flow image of a region to be imaged of an object, said system comprising:
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temporal phase detecting means for detecting a signal indicative of a particular cardiac temporal phase of the object;
scan performing means for performing a three-dimensional pulse sequence for said region of the object, the three-dimensional pulse sequence being repeated a plurality of times with slice encodes incorporated in the three dimensional pulse sequence being changed in synchronism with each of a plurality of mutually different image delay times set with respect to the signal indicative of a particular cardiac temporal phase;
echo data acquiring means for acquiring a plurality of sets of three-dimensional echo data generated respectively in response to the repeated performance of the three-dimensional pulse sequence; and
data processing means for processing the plurality of sets of echo data into date of the blood flow image in which both an artery and a vein of the object are visually separated from each other. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
wherein the scan performing means is configured as means for performing the pulse sequence in synchronism with both of each of the plurality of different imaging delay times set to the signal indicative of the particular cardiac temporal phase of the object and the breath cycle of the object detected by the breath cycle detecting means. -
9. The MRI system of claim 1, wherein the three-dimensional pulse sequence includes a slice gradient pulse for data acquisition based on the slice encodes applied in an approximately parallel direction to a running direction of a blood flow in the object.
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10. The MRI system of claim 1, wherein the three-dimensional pulse sequence includes a phase-encode gradient pulse for applying a phase encode in a direction approximately coinciding with a running direction of a blood flow in the object.
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11. The MRI system of claim 1, wherein:
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the temporal phase detecting means is configured to acquire an ECG signal of the object including the signal indicative of the particular cardiac temporal phase, and the scan performing means is configured to perform the three-dimensional pulse sequence in synchronism with an R-wave appearing in the ECG signal, the R-wave corresponding to the signal.
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12. The MRI system of claim 11, further comprising:
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preparing scanning means for acquiring a plurality of sets of echo signals by performing a preparing scan within the region of the object at each of mutually different preparing delay times set to the R-wave of the ECG signal;
preparing-image producing means for producing a plurality of preparing images from the echo signals; and
providing means for providing the scan performing means with, as the plurality of different imaging delay times, a plurality of optimum delay times selected from the mutually different preparing delay times on the basis of the plurality of preparing images.
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13. The MRI system of claim 1, wherein the three-dimensional pulse sequence consists of any one pulse train selected from the group consisting of an FSE based pulse train, FASE based pulse train and EPI based pulse train.
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14. An MR imaging method for obtaining a blood flow image of a region to be imaged of an object, said method comprising:
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performing a three-dimensional pulse sequence for said region of the object, the three-dimensional pulse sequence being repeated a plurality of times, with slice encodes incorporated in the pulse sequence being changed in synchronism with each of a plurality of mutually different imaging delay times set with respect to a signal indicative of a particular cardiac temporal phase of the object;
acquiring, by performing the three-dimensional pulse sequence, a plurality of sets of three-dimensional echo data generated respectively in response to the repeated performance of the three-dimensional pulse sequence; and
processing the plurality of sets of echo data into data of the blood flow image in which both an artery and a vein of the object are visually separated from each other. - View Dependent Claims (15, 16, 17)
performing subtraction between two sets of data related to the echo data with the use of a weighted difference so that one set of difference data is produced; and
producing from the one set of difference data the blood flow image.
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17. The MR imaging method of claim 16, wherein the producing step is a step of performing a maximum intensity projection (MIP) with the one set of difference image data.
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18. An MRI system for obtaining a blood flow image of a region to be imaged of an object, said system comprising:
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a temporal phase detecting unit configured to detect a signal indicative of a particular cardiac temporal phase of the object;
a scan performing unit configured to perform a three-dimensional pulse sequence for said region of the object, the three-dimensional pulse sequence being repeated a plurality of times with slice encodes incorporated in the three dimensional pulse sequence being changed in synchronism with each of a plurality of mutually different imaging delay times set to the signal indicative of a particular cardiac temporal phase;
an echo data acquiring unit configured to acquire a plurality of sets of three-dimensional echo data generated respectively in response to repeated performance of the three-dimensional pulse sequence; and
a data processing means unit configured to process the plurality of sets of echo data into date of the blood flow image in which both an artery and a vein of the object are visually separated from each other. - View Dependent Claims (19, 20)
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Specification
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Current AssigneeToshiba Medical Systems Corporation (Canon Inc.)
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Original AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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InventorsMiyazaki, Mitsue
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Primary Examiner(s)Smith, Ruth S.
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Application NumberUS09/294,148Publication NumberTime in Patent Office1,953 DaysField of Search600/413, 600/419, 600/410, 324/307, 324/306, 324/309US Class Current600/410CPC Class CodesA61B 5/055 involving electronic [EMR] ...G01R 33/563 of moving material, e.g. fl...G01R 33/5673 Gating or triggering based ...
