Zero echo time MR imaging with water/fat separation
First Claim
1. A method of magnetic resonance (MR) imaging of an object positioned in an examination volume of a MR device, the method comprising the steps of:
- subjecting the object to an imaging sequence of radio frequency (RF) pulses and switched magnetic field gradients (G), which imaging sequence is a zero echo time sequence comprising;
i) setting a readout magnetic field gradient (G) having a readout direction and a readout strength;
ii) radiating a RF pulse in the presence of the readout magnetic field gradient (G);
iii) acquiring a free induction decay (FID) signal in the presence of the readout magnetic field gradient (G), wherein the FID signal represents a radial k-space sample;
iv) gradually varying the readout direction;
v) sampling a spherical volume in k-space by repeating steps i) through iv) a number of times, with the readout strength being varied between repetitions;
wherein the readout strength is varied such that individual positions in k-space are sampled at least two times, each time with a different value of the readout strength, such that said k-space position is sampled at two or more different sampling times andreconstructing a MR image from the acquired FID signals, wherein signal contributions of two or more chemical species to the acquired FID signals are separated, whereinthe signal contributions of the two or more chemical species to the FID signals are derived from phase differences of the acquired FID signals induced by the variation of the readout strength and the separation of the signal contributions is performed on the basis of a signal model including at least the MR spectrum of each of the chemical species.
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Abstract
The invention relates to a method of MR imaging of an object positioned in an examination volume of a MR device (1), the method comprises the steps of:—subjecting the object (10) to an imaging sequence of RF pulses (20) and switched magnetic field gradients(G), which imaging sequence is a zero echo time sequence comprising: i) setting a readout magnetic field gradient (G) having a readout direction and a readout strength; ii) radiating a RF pulse (20) in the presence of the readout magnetic field gradient (G); iii) acquiring a FID signal in the presence of the readout magnetic field gradient (G), wherein the FID signal represents a radial k-space sample; iv) gradually varying the readout direction; v) sampling a spherical volume in k-space by repeating steps i) through iv) a number of times, with the readout strength being varied between repetitions;—reconstructing a MR image from the acquired FID signals, wherein signal contributions of two or more chemical species to the acquired FID signals are separated. It is an object of the invention to enable silent ZTE imaging in combination with water/fat separation. This is achieved by varying the readout strength such that each position in k-space is sampled at least two times, each time with a different value of the readout strength. Moreover, the invention relates to a MR device and to a computer program for a MR device.
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Citations
9 Claims
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1. A method of magnetic resonance (MR) imaging of an object positioned in an examination volume of a MR device, the method comprising the steps of:
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subjecting the object to an imaging sequence of radio frequency (RF) pulses and switched magnetic field gradients (G), which imaging sequence is a zero echo time sequence comprising; i) setting a readout magnetic field gradient (G) having a readout direction and a readout strength; ii) radiating a RF pulse in the presence of the readout magnetic field gradient (G); iii) acquiring a free induction decay (FID) signal in the presence of the readout magnetic field gradient (G), wherein the FID signal represents a radial k-space sample; iv) gradually varying the readout direction; v) sampling a spherical volume in k-space by repeating steps i) through iv) a number of times, with the readout strength being varied between repetitions;
wherein the readout strength is varied such that individual positions in k-space are sampled at least two times, each time with a different value of the readout strength, such that said k-space position is sampled at two or more different sampling times andreconstructing a MR image from the acquired FID signals, wherein signal contributions of two or more chemical species to the acquired FID signals are separated, wherein the signal contributions of the two or more chemical species to the FID signals are derived from phase differences of the acquired FID signals induced by the variation of the readout strength and the separation of the signal contributions is performed on the basis of a signal model including at least the MR spectrum of each of the chemical species. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A magnetic resonance (MR) device comprising at least one main magnet coil for generating a uniform, steady magnetic field within an examination volume, a number of gradient coils for generating switched magnetic field gradients in different spatial directions within the examination volume, at least one radio frequency (RF) coil for generating RF pulses within the examination volume and/or for receiving MR signals from an object positioned in the examination volume, a control unit for controlling the temporal succession of RF pulses and switched magnetic field gradients, and a reconstruction unit, wherein the MR device is arranged to perform the following steps:
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subjecting the object to an imaging sequence of RF pulses and switched magnetic field gradients, which imaging sequence is a zero echo time sequence comprising; i) setting a readout magnetic field gradient having a readout direction and a readout strength; ii) radiating a RF pulse in the presence of the readout magnetic field gradient (G); iii) acquiring a free induction decay (FID) signal in the presence of the readout magnetic field gradient (G), wherein the FID signal represents a radial k-space sample; iv) incrementally varying the readout direction; v) sampling a spherical volume in k-space by repeating steps i) through iv) a number of times, with the readout strength being varied between repetitions wherein the readout strength is varied such that individual positions in k-space are sampled at least two times, each time with a different value of the readout strength, such that said k-space position is sampled at two or more different sampling times and; reconstructing a MR image from the acquired FID signals, wherein signal contributions of two or more chemical species to the acquired FID signals are separated.
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9. A non-transitory computer readable medium to be run on a magnetic resonance (MR) device, which comprises instructions for:
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generating an imaging sequence of radio frequency (RF) pulses and switched magnetic field gradients (G), which imaging sequence is a zero echo time sequence comprising; i) setting a readout magnetic field gradient (G) having a readout direction and a readout strength; ii) radiating a RF pulse in the presence of the readout magnetic field gradient; iii) acquiring a free induction decay (FID) signal in the presence of the readout magnetic field gradient, wherein the FID signal represents a radial k-space sample; iv) incrementally varying the readout direction; v) sampling a spherical volume in k-space by repeating steps i) through iv) a number of times, with the readout strength being varied between repetitions wherein the readout strength is varied such that individual positions in k-space is sampled at least two times, each time with a different value of the readout strength, such that said k-space position is sampled at two or more different sampling times and;
whereinthe signal contributions of the two or more chemical species to the FID signals are derived from phase differences of the acquired FID signals induced by the variation of the readout strength and the separation of the signal contributions is performed on the basis of a signal model including at least the MR spectrum of each of the chemical species and reconstructing a MR image from the acquired FID signals, wherein signal contributions of two or more chemical species to the acquired FID signals are separated.
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Specification