Spiral three-dimensional fourier transform NMR scan
First Claim
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1. A method for acquiring an NMR data set which is employed to reconstruct an image using a Fourier transformation, the steps comprising:
- performing an NMR pulse sequence in an NMR system to acquire sample NMR data for the NMR data set, the NMR pulse sequence including a first phase encoding gradient pulse having a magnitude which determines the location of the sample NMR data along a first axis in a two-dimensional k-space, and a second phase encoding gradient pulse having a magnitude which determines the location of the sample NMR data along a second axis in the two-dimensional k-space;
repeating the NMR pulse sequence to acquire sample NMR data for the NMR data set from locations in a region surrounding the origin of said two-dimensional k-space, the magnitudes of said first and second phase encoding gradient pulses being stepped through values such that the location of successive samples forms a spiral trajectory in the two-dimensional k-space.
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Abstract
A 3DFT NMR scan is performed by stepping two phase encoding gradients through a sequence of values to sample all locations in k-space. The gradients are stepped such that k-space is covered by a spiral trajectory that originates at the origin and extends to the periphery of k-space. Alternative embodiments cover k-space with a set of four or eight interleaved spiral trajectories.
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Citations
11 Claims
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1. A method for acquiring an NMR data set which is employed to reconstruct an image using a Fourier transformation, the steps comprising:
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performing an NMR pulse sequence in an NMR system to acquire sample NMR data for the NMR data set, the NMR pulse sequence including a first phase encoding gradient pulse having a magnitude which determines the location of the sample NMR data along a first axis in a two-dimensional k-space, and a second phase encoding gradient pulse having a magnitude which determines the location of the sample NMR data along a second axis in the two-dimensional k-space; repeating the NMR pulse sequence to acquire sample NMR data for the NMR data set from locations in a region surrounding the origin of said two-dimensional k-space, the magnitudes of said first and second phase encoding gradient pulses being stepped through values such that the location of successive samples forms a spiral trajectory in the two-dimensional k-space. - View Dependent Claims (2, 3)
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4. A method for acquiring a three-dimensional NMR data set for reconstructing an image using a Fourier transformation, which comprises:
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performing a scan comprised of a series of NMR pulse sequences, each NMR pulse sequence including; producing a first phase encoding gradient pulse having a gradient directed along one of the three dimensions, and having a magnitude which is stepped through a series of values during the scan; producing a second phase encoding gradient pulse having a gradient directed along a second of said three dimensions, and having a magnitude which is stepped through a series of values during the scan; producing a read-out gradient pulse having a gradient directed along the third of said three dimensions; and acquiring an NMR signal for the NMR data set during the production of the read-out gradient; wherein the series of values through which the magnitudes of the first and second phase encoding pulses are stepped during the scan map out a spiral trajectory in a two-dimensional k-space. - View Dependent Claims (5, 6, 7)
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8. A method for reducing motion artifacts in a 3 DFT NMR image which comprises:
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performing a 3 DFT scan comprised of a series of 3 DFT pulse sequences in which two phase encoding gradients are stepped through values which produce NMR signals that sample a region surrounding the origin of a two-dimensional k-space, such that an area near the origin is sampled initially during the scan and sampling progresses away from the origin as the scan is performed; and employing a motion artifact suppression technique during an initial portion of the scan during which the area near the origin is sampled. - View Dependent Claims (9, 10)
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11. A method for reducing motion artifacts in a 3 DFT NMR image which comprises:
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performing a 3 DFT scan comprised of a series of 3 DFT pulse sequences in which two phase encoding gradients are stepped through values which produce NMR signals that sample a region surrounding the origin of a two-dimensional k-space, such that an area near the origin is sampled initially during the scan and sampling progresses away from the origin as the scan is performed; and in which the repetition time (TR) of the 3 DFT pulse sequence is set to a maximum value during the sampling of the region surrounding the origin of k-space and the repetition time (TR) of the 3 DFT pulse sequence is shortened as sampling progresses away from the origin.
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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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InventorsKorin, Hope W., Riederer, Stephen J.
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Primary Examiner(s)Tokar, Michael J.
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Application NumberUS07/617,105Time in Patent Office573 DaysField of Search324/300, 324/307, 324/309, 324/312, 324/308, 128/653 R, 128/653 AUS Class Current324/309CPC Class CodesG01R 33/4822 in three dimensionsG01R 33/54 Signal processing systems, ...
