MRI device and method

A technology of magnetic resonance imaging and magnetic resonance signals, which is applied in the direction of magnetic resonance measurement, measurement by using nuclear magnetic resonance imaging system, measurement of magnetic variables, etc.

Inactive Publication Date: 2009-12-16
TOSHIBA MEDICAL SYST CORP
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Problems solved by technology

[0013] However, this method of navigating signals for acquiring navigation signals under a condition different from the data acquisition conditions used for imaging has two main problems
[0014] The first problem is that the respiration-related displacement of the imaging target region (heart) and the displacement of the region observed by the navigation signal (diaphragm) are correlated, but not identical to each other
Therefore, the displacement of the heart is estimated from the displacement of the diaphragm, which is one reason for reduced accuracy
In addition, even in the same target, the ratio between the amount of displacement of the heart related to breathing and the amount of displacement of the diaphragm differs depending on the individual and varies depending on the state of breathing, so it is difficult to obtain a stable image
[0015] The second problem is that the timing used to detect the signal from the diaphragm is very different from the timing used to detect the imaging signal
Therefore, the accuracy of motion detection is easily affected by non-moving areas, especially in imaging situations that require high precision, such as high-resolution imaging, the impact of non-moving areas on motion detection accuracy will be very problematic

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  • MRI device and method
  • MRI device and method
  • MRI device and method

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Embodiment Construction

[0055] A magnetic resonance imaging apparatus and a magnetic resonance imaging method according to embodiments of the present invention will be described with reference to the drawings.

[0056] figure 1 is a block diagram showing a magnetic resonance imaging apparatus according to a first embodiment of the present invention.

[0057] figure 1 The illustrated magnetic resonance imaging apparatus 20 includes a static field magnet 21 for generating a static magnetic field, a shim coil 22 arranged inside the cylindrical static field magnet 21 , a gradient coil unit 23 and an RF coil 24 . The static field magnet 21, spacer coil 22, gradient coil unit 23 and RF coil 24 are built within a (not shown) gantry.

[0058] The magnetic resonance imaging device 20 also includes a control system 25 . The control system 25 includes a static magnetic field power supply 26 , a gradient power supply 27 , a shim coil power supply 28 , a transmitter 29 , a receiver 30 , a sequence controller 3...

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Abstract

An MRI device includes an imaging signal acquisition unit, a motion signal acquisition unit, a motion amount determination unit, a motion correction unit and an image reconstruction unit. The imaging signal acquisition unit acquires MR signals as imaging signals. The motion signal acquisition unit repeatedly acquires MR signals having a PE amount smaller than that of the imaging signal as the motion signal. The exercise amount determining unit obtains an exercise amount using the exercise signal. The motion correction unit performs correction processing on the imaging signal according to the amount of motion. The image reconstruction unit uses the corrected imaging signal to reconstruct an image.

Description

technical field [0001] The invention relates to a magnetic resonance imaging device and a magnetic resonance imaging method, which generate a gradient magnetic field on an imaging area formed in a static magnetic field, and cause magnetic resonance to occur on nuclear spins in a target set in the imaging area by emitting radio frequency signals , and reconstructing an image of said target by using nuclear magnetic resonance signals generated due to excitation, and more specifically, to a magnetic resonance imaging apparatus and a magnetic resonance imaging method in which the influence of target motion on the image is reduced by correction . Background technique [0002] An MRI (Magnetic Resonance Imaging) device is a device that generates gradient magnetic fields through gradient coils on an imaging zone of a target set within a cylindrical static field magnet used to generate a static magnetic field, by transmitting An RF (Radio Frequency) signal causes magnetic resonance...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01R33/48G01R33/56A61B5/055
Inventor 油井正生葛西由守久原重英
Owner TOSHIBA MEDICAL SYST CORP
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