Nuclear magnetic resonance imaging method and device
First Claim
1. A nuclear magnetic resonance imaging method for acquiring image data required for reconstruction of an image by repeating a plurality of times a segment in which an RF pulse and gradient magnetic fields in three directions that are perpendicular to each other are applied to a subject to time-sequentially generate and collect image echo signals, the nuclear magnetic resonance imaging method comprising:
- (a) generating and collecting at least one navigator echo in each of the plurality of segments;
(b) producing in k-space a phase shift map of each navigator echo collected in each of the plurality of segments with the navigator echo collected in a certain segment among the plurality of segments being a reference; and
(c) modifying in k-space a phase of the image echo signals collected in each of the plurality of segments according to each phase shift map of each navigator echo collected in each of the plurality of segments.
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Abstract
In a multi-shot MR imaging method, a navigator echo V(kx, n) of which phase-encoding amount is 0 is generated by applying a gradient magnetic field pulse in a readout direction (x-direction) and collected at each segment. A phase shift map C(kx, n) of V(kx, n) collected in the n-th segment is produced in k-space as a function in kx-direction with V(kx, 1) collected in the first segment being the reference. Next, noises are removed from C(kx, n), and C(kx, n) is smoothed. Then, an image echo signal S(kx, n, m) collected in the n-th segment is corrected in k-space according to a smoothed phase shift map C′(kx, n) of V(kx, n) collected in the same segment, and an image echo signal S′(kx, n, m) of which phase shifts are corrected is thereby acquired. Thus, the phase shifts of the image echo signals caused by a motion in the x-direction of a patient can be precisely corrected at a high speed. By reconstructing an image with the corrected image echo signal S′(kx, n, m), the image without motion artifacts can be acquired in realtime.
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Citations
17 Claims
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1. A nuclear magnetic resonance imaging method for acquiring image data required for reconstruction of an image by repeating a plurality of times a segment in which an RF pulse and gradient magnetic fields in three directions that are perpendicular to each other are applied to a subject to time-sequentially generate and collect image echo signals, the nuclear magnetic resonance imaging method comprising:
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(a) generating and collecting at least one navigator echo in each of the plurality of segments;
(b) producing in k-space a phase shift map of each navigator echo collected in each of the plurality of segments with the navigator echo collected in a certain segment among the plurality of segments being a reference; and
(c) modifying in k-space a phase of the image echo signals collected in each of the plurality of segments according to each phase shift map of each navigator echo collected in each of the plurality of segments.
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2. A nuclear magnetic resonance imaging method for acquiring image data required for reconstruction of an image by repeating a plurality of times a segment in which an RF pulse and gradient magnetic fields in three directions that are perpendicular to each other are applied to a subject to time-sequentially generate and collect image echo signals, the nuclear magnetic resonance imaging method comprising:
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(a) applying a gradient magnetic field pulse in α
-direction that is one of the three directions to generate and collect a navigator echo in each of the plurality of segments;
(b) producing, in k-space as a function in the α
-direction, a phase shift map of each navigator echo collected in each of the plurality of segments with the navigator echo collected in a certain segment among the plurality of segments being a reference;
(c) modifying in k-space a phase at each time phase of the image echo signals collected in each of the plurality of segments according to each phase shift map of each navigator echo collected in each of the plurality of segments; and
(d) reconstructing the image from the modified image echo signals. - View Dependent Claims (3)
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4. A nuclear magnetic resonance imaging method, comprising:
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(a) applying a gradient magnetic field in a slicing direction to a subject to select a slice substantially at the same time as applying an RF pulse;
(b) applying a gradient magnetic field pulse in α
-direction that is one of the slicing direction, a phase-encoding direction and a readout direction to generate and collect a navigator echo;
(c) applying a phase-encoding gradient magnetic field pulse which gives an offset for a phase-encoding and a readout gradient magnetic field pulse which gives an offset in the readout direction;
(d) applying readout gradient magnetic field pulses of successively alternating polarity and applying phase-encoding gradient magnetic field pulses in synchronization with the readout gradient magnetic field pulses to time-sequentially generate and collect image echo signals within each cycle of the alternating readout gradient magnetic field pulses;
(e) repeating a plurality of times a segment comprising the steps of (a)-(d);
(f) producing, in k-space as a function in the α
-direction, a phase shift map of each navigator echo collected in each of the plurality of segments with the navigator echo collected in a certain segment among the plurality of segments being a reference;
(g) modifying in k-space a phase at each time phase of the image echo signals collected in each of the plurality of segments according to each phase shift map of each navigator echo collected in each of the plurality of segments; and
(h) reconstructing an image from the modified image echo signals. - View Dependent Claims (5, 6, 7, 8)
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9. A nuclear magnetic resonance imaging apparatus, comprising:
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uniform magnetic field generating means for generating a uniform magnetic field to a space where a subject is placed;
gradient magnetic field generating means for applying gradient magnetic fields in three directions that are perpendicular to each other to the subject;
radio-frequency magnetic field generating means for applying an RF pulse to the subject;
signal detecting means for detecting echo signals generated from the subject; and
controlling means for;
acquiring image data required for reconstruction of an image by repeating a plurality of times a segment in which the RF pulse and the gradient magnetic fields in the three directions are applied to the subject by the radio-frequency magnetic field generating means and the gradient magnetic field generating means to time-sequentially generate image echo signals from the subject and the image echo signals are collected by the signal detecting means;
generating at least one navigator echo by applying a gradient magnetic field pulse to the subject by the gradient magnetic field generating means and collecting the at least one navigator echo by the signal detecting means in each of the plurality of segments;
producing in k-space a phase shift map of each navigator echo collected in each of the plurality of segments with the navigator echo collected in a certain segment among the plurality of segments being a reference; and
modifying in k-space a phase of the image echo signals collected in each of the plurality of segments according to each phase shift map of each navigator echo collected in each of the plurality of segments.
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10. A nuclear magnetic resonance imaging apparatus, comprising:
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uniform magnetic field generating means for generating a uniform magnetic field to a space where a subject is placed;
gradient magnetic field generating means for applying gradient magnetic fields in three directions that are perpendicular to each other to the subject;
radio-frequency magnetic field generating means for applying an RF pulse to the subject;
signal detecting means for detecting echo signals generated from the subject;
controlling means for;
acquiring image data required for reconstruction of an image by repeating a plurality of times a segment in which the RF pulse and the gradient magnetic fields in the three directions are applied to the subject by the radio-frequency magnetic field generating means and the gradient magnetic field generating means to time-sequentially generate image echo signals from the subject and the image echo signals are collected by the signal detecting means;
generating a navigator echo by applying a gradient magnetic field pulse in α
-direction that is one of the three directions to the subject by the gradient magnetic field generating means and collecting the navigator echo by the signal detecting means in each of the plurality of segments;
producing, in k-space as a function in the α
-direction, a phase shift map of each navigator echo collected in each of the plurality of segments with the navigator echo collected in a certain segment among the plurality of segments being a reference; and
modifying in k-space a phase at each time phase of the image echo signals collected in each of the plurality of segments according to each phase shift map of each navigator echo collected in each of the plurality of segments;
signal processing means for reconstructing the image from the modified image echo signals; and
displaying means for displaying the reconstructed image.
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11. A nuclear magnetic resonance imaging apparatus, comprising:
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uniform magnetic field generating means for generating a uniform magnetic field to a space where a subject is placed;
gradient magnetic field generating means for applying gradient magnetic fields in three directions that are perpendicular to each other to the subject;
radio-frequency magnetic field generating means for applying an RF pulse to the subject;
signal detecting means for detecting echo signals generated from the subject;
controlling means for;
acquiring image data required for reconstruction of an image by repeating a plurality of times a segment in which the RF pulse and the gradient magnetic fields in the three directions are applied to the subject by the radio-frequency magnetic field generating means and the gradient magnetic field generating means to time-sequentially generate image echo signals from the subject and the image echo signals are collected by the signal detecting means;
generating a navigator echo by applying a gradient magnetic field pulse to the subject by the gradient magnetic field generating means and collecting the navigator echo by the signal detecting means in each of the plurality of segments;
finding phase differences between the navigator echo that is collected in a certain segment among the plurality of segments and others of the navigator echoes; and
modifying phases of the image echo signals according to the phase differences;
signal processing means for reconstructing the image from the modified image echo signals; and
displaying means for displaying the reconstructed image.
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12. A magnetic resonance imaging apparatus, comprising:
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uniform magnetic field generating means for generating a uniform magnetic field to a space where a subject is placed;
gradient magnetic field generating means for applying gradient magnetic fields in three directions that are perpendicular to each other to the subject;
radio-frequency magnetic field generating means for applying an RF pulse to the subject;
signal detecting means for detecting echo signals generated from the subject; and
controlling means for performing gradient magnetic field generating, radio-frequency magnetic field generating and signal detecting in a predetermined sequence and performing image reconstruction calculation with the detected echo signals, wherein the controlling means performs a sequence in which the echo signals are acquired for a predetermined repetition time and the acquisition of the echo signals is repeated to acquire image data signals of at least one slice and a navigation echo is generated for each repetition time, finds phase differences between one of the navigation echoes that is a reference and others of the navigation echoes, and modifies in k-space phases of the image echo signals according to the phase differences. - View Dependent Claims (13)
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14. A magnetic resonance imaging apparatus, comprising:
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a magnet which generates a static magnetic field to a space where a subject is placed;
gradient magnetic field coils which apply gradient magnetic fields in a slicing direction, a phase-encoding direction and a readout-encoding direction, respectively, to the space;
an RF coil which generates radio-frequency pulses to excite nuclei in a subject part of the subject;
an RF probe which receives magnetic resonance signals from the subject;
a controlling part which performs gradient magnetic field application and radio-frequency pulse application in a predetermined sequence;
a signal processing part which performs signal processing such as image reconstruction from the received magnetic resonance signals; and
a displaying part which displays image signals from the signal processing;
wherein the signal processing part finds phase difference information between one of the navigation echoes in each segment that is a reference and others of the navigation echoes, and modifies in k-space phases of the image echo signals according to the phase difference information. - View Dependent Claims (15)
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16. A nuclear magnetic resonance imaging method for acquiring image data required for reconstruction of an image by repeating a plurality of times a segment in which an RF pulse and gradient magnetic fields in three directions that are perpendicular to each other are applied to a subject to time-sequentially generate and collect image echo signals, the nuclear magnetic resonance imaging method comprising:
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generating and collecting at least one navigator echo in each of the plurality of segments;
finding phase differences between the navigator echo that is collected in a certain segment among the plurality of segments and others of the navigator echoes; and
modifying phases of the image echo signals according to the phase differences.
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17. A nuclear magnetic resonance imaging apparatus, comprising:
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uniform magnetic field generating means for generating a uniform magnetic field to a space where a subject is placed;
gradient magnetic field generating means for applying gradient magnetic fields in three directions that are perpendicular to each other to the subject;
radio-frequency magnetic field generating means for applying an RF pulse to the subject;
signal detecting means for detecting echo signals generated from the subject; and
controlling means for;
acquiring image data required for reconstruction of an image by repeating a plurality of time a segment in which the RF pulse and the gradient magnetic fields in the three directions are applied to the subject by the radio-frequency magnetic field generating means and the gradient magnetic field generating means to time-sequentially generate image echo signals from the subject and the image echo signals are collected by the signal detecting means, generating a navigator echo by applying a gradient magnetic field pulse to the subject by the gradient magnetic field generating means and collecting the navigator echo by the signal detecting means in each of the plurality of segments, finding phase differences between the navigator echo that is collected in a certain segment among the plurality of segments and others of the navigator echoes; and
modifying phases of the image echo signals according to the phase differences.
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Specification