Magnetic resonance imaging method and apparatus
First Claim
1. A magnetic resonance (MR) imaging method, comprising:
- operating an MR scanner, while a subject is situated therein, to scan the subject with a multi-echo MR data acquisition sequence, including exciting nuclear spins in the subject, with the excited nuclear spins producing N asymmetric magnetic resonance echo signals, wherein N is greater than or equal to 2, and including activating a readout gradient comprising a predispersion phase gradient, a first platform gradient, and a second platform gradient, with an area of said predispersion phase gradient being less than 1/N of an area of said first platform gradient, and an area of said first platform gradient being less than an area of the second platform gradient, and wherein said MR data are read out from N symmetric magnetic resonance echo signals;
operating said MR scanner to read out raw data from the subject during said N asymmetric magnetic resonance echo signals, and entering the raw data into an electronic memory as k-space data; and
accessing said k-space data from a processor and, in said processor, reconstructing a magnetic resonance image of the subject from said k-space data, and making the magnetic resonance image available at an output of the computer in electronic form as a datafile.
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Abstract
In a magnetic resonance imaging method and apparatus, the scanner is operated with a multi-echo sequence in order to acquire k-space data of a multi-echo magnetic resonance signal, and the k-space data are used to reconstruct a magnetic resonance image. The multi-echo magnetic resonance signal is an asymmetric multi-echo magnetic resonance signal, and the asymmetric multi-echo magnetic resonance signal includes N asymmetric echo magnetic resonance signals, wherein N is greater than or equal to 2. Asymmetric echo magnetic resonance signals can be acquired in a dual-echo steady-state sequence, so that scanning time is reduced and the degree of comfort of a subject is improved because the magnetization process reaches a steady state quickly so the magnetic resonance signal is less affected by inhomogeneities that may exist in the basic magnetic field or a gradient magnetic field, and the intensity of the magnetic resonance signal is increased.
8 Citations
8 Claims
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1. A magnetic resonance (MR) imaging method, comprising:
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operating an MR scanner, while a subject is situated therein, to scan the subject with a multi-echo MR data acquisition sequence, including exciting nuclear spins in the subject, with the excited nuclear spins producing N asymmetric magnetic resonance echo signals, wherein N is greater than or equal to 2, and including activating a readout gradient comprising a predispersion phase gradient, a first platform gradient, and a second platform gradient, with an area of said predispersion phase gradient being less than 1/N of an area of said first platform gradient, and an area of said first platform gradient being less than an area of the second platform gradient, and wherein said MR data are read out from N symmetric magnetic resonance echo signals; operating said MR scanner to read out raw data from the subject during said N asymmetric magnetic resonance echo signals, and entering the raw data into an electronic memory as k-space data; and accessing said k-space data from a processor and, in said processor, reconstructing a magnetic resonance image of the subject from said k-space data, and making the magnetic resonance image available at an output of the computer in electronic form as a datafile. - View Dependent Claims (2, 3, 4)
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5. A magnetic resonance (MR) apparatus, comprising:
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an MR scanner; a control computer configured to operate said MR scanner, while a subject is situated therein, to scan the subject with a multi-echo MR data acquisition sequence, including exciting nuclear spins in the subject, with the excited nuclear spins producing N asymmetric magnetic resonance echo signals, wherein N is greater than or equal to 2, and including activating a readout gradient comprising a predispersion phase gradient, a first platform gradient, and a second platform gradient, with an area of said predispersion phase gradient being less than 1/N of an area of said first platform gradient, and an area of said first platform gradient being less than an area of the second platform gradient, and wherein said MR data are read out from N symmetric magnetic resonance echo signals; said control computer being configured to operate said MR scanner to read out raw data from the subject during said N asymmetric magnetic resonance echo signals, and to enter the raw data into an electronic memory as k-space data; and a processor configured to access said k-space data and to reconstruct a magnetic resonance image of the subject from said k-space data, and to make the magnetic resonance image available at an output of the computer in electronic form as a datafile. - View Dependent Claims (6, 7, 8)
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Specification