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Diffusion-weighted magnetic resonance imaging

一种弥散加权、磁共振数据的技术,应用在测量磁变量、医药科学、诊断等方向,能够解决不予使用等问题

Active Publication Date: 2012-11-14
SIEMENS HEALTHCARE GMBH +1
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

Additionally, data acquired during early systole, when the effects of beating are most pronounced, are discarded and not used during image reconstruction

Method used

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  • Diffusion-weighted magnetic resonance imaging
  • Diffusion-weighted magnetic resonance imaging
  • Diffusion-weighted magnetic resonance imaging

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Embodiment Construction

[0021] Figure 5 Schematic illustration of a magnetic resonance tomography system generating gradient pulses according to the invention. Apart from what is discussed below, the design of the magnetic resonance tomograph corresponds to a conventional tomograph. The basic field magnet 1 generates a time-constant strong magnetic field for the polarization or alignment of nuclear spins in an examination area of ​​an object, such as a part of a human body to be examined. A high degree of homogeneity of the basic magnetic field required for magnetic resonance data acquisition is defined in the spherical measurement volume M into which a part of the human body to be examined is introduced. In order to support the uniformity requirements, especially to eliminate the time-invariant effect, shim plates made of ferromagnetic materials are installed in appropriate positions. The time-variable influence is then eliminated by the shim coils 2 excited by the shim power supply 15 .

[0022...

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Abstract

In a magnetic resonance apparatus and operating method therefore, 3D navigator data are acquired and are used to correct spatially varying phase errors in contemporaneously acquired imaging data in each shot of a multi-shot data acquisition sequence. A mosaic sampling scheme is used to enter the diffusion-weighted magnetic resonance data and the navigator data into k-space respectively in blocks that each form a subset of the entirety of k-space. The navigator data in each shot are entered into a block that is located at the center of k-space, and, in each shot, the corresponding image data are entered into an offset block in k-space, that is offset in at least one spatial direction from the navigator data block. The offset is varied from shot-to-shot.

Description

technical field [0001] The present invention relates to diffusion weighted magnetic resonance imaging, in particular to a method for correcting phase errors in diffusion weighted magnetic resonance data and a magnetic resonance device. Background technique [0002] Multiple-shot diffusion-weighted imaging (DWI) of the brain is sensitive to spatially correlated nonlinear phase errors caused by CSF (cerebrospinal fluid) pulsations during diffusion-encoding gradients and the impact of cardiac-related pulsatile motion on the brain. figure 1 The phase images in show roughly how these phase errors vary from one shot to the next, as shown in example shots S1, S2, S3, S4, and S5. This leads to severe artifacts in the final image if no correction is applied. [0003] For two-dimensional acquisition, each image plane is excited with separate slice-selected radio frequency (RF) pulses, and techniques have been demonstrated to allow correction of these two-dimensional nonlinear phase e...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/055
CPCG01R33/56536G01R33/56341G01R33/5676A61B5/055G01R33/5608G01R33/5611G01R33/5619G01R33/56333
Inventor D.A.波特P.杰扎德R.弗罗斯特K.米勒
Owner SIEMENS HEALTHCARE GMBH
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