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Multilayer super-rapid magnetic resonance imaging method based on segmental excitation space-time coding

A technology of magnetic resonance imaging and space-time encoding, which is applied in the direction of measuring magnetic variables, measuring devices, instruments, etc., can solve the problems of sampling signal attenuation, image signal-to-noise ratio reduction, and large absorption rate, etc., to slow down signal attenuation and reduce SAR value Effect

Active Publication Date: 2016-05-04
XIAMEN UNIV
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Problems solved by technology

[0003] Although the single-layer space-time coding technology has the above advantages, if the multi-layer imaging technology is introduced, the specific absorption rate (SAR) will be too large due to the application of multiple chirp pulses, so it cannot be really applied
In 2013, the Frydman group proposed a multi-layer spatio-temporal coding imaging technique with global spatial coding layered sampling (SchmidtR, FrydmanL. Newspatiotemporal approaches for fully focused, multislice ultrafast2DMRI. MagnResonMed2014; 71:711-722), although this technology greatly reduces the SAR, but with the number of layers The increase due to T 1 However, the relaxation effect caused the sampling signal to be greatly attenuated, and the signal-to-noise ratio of the image was also reduced.

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Embodiment

[0047] The multi-layer ultra-fast magnetic resonance imaging method based on segmental excitation spatio-temporal coding is demonstrated on live Wistar rats to verify the feasibility of the present invention. Experimental tests were performed on a Varian7T imager (Agilent Technologies, Santa Clara, CA, USA). The imaging sample used in the experiment is about 300g live Wistar rats. Before the experiment, the rats were gas anesthetized with isoflurane mixed with oxygen, and the corresponding experiments were carried out after the mice entered a dormant state. Before the experiment, the rats were fixed on the experimental bed, and then introduced into the magnetic resonance imaging machine. On the operating table of the magnetic resonance imager, open the corresponding operating software of the magnetic resonance imager, and locate the part of the rat of interest. Here, the brain of the rat is selected for Axial plane imaging. Tuning, shimming, frequency correction and power cor...

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Abstract

The invention relates to a multilayer super-rapid magnetic resonance imaging method based on segmental excitation space-time coding and relates to the magnetic resonance imaging method. According to the method, an imaging object is divided into multiple segments, at an excitation stage, a 90-degree segment selection sinc pulse is utilized to select an imaging segment, in-segment protons are made to spin through a 180-degree linear frequency modulation pulse to acquire a secondary phase, and time-space coding for the spinning protons in the imaging segment is carried out; the secondary phase information is stored through a phase identical to the 90-degree segment selection pulse; a layer selection 90-degree sinc pulse is connected, decoding and sampling for the protons are carried out. Through designing the center frequency and the decoding sampling gradient of the layer selection pulse, the magnetic resonance data of multiple layers of the segment can be acquired, different imaging segments are selected through correcting the center frequency of the segment selection pulse, and the multilayer data of the whole imaging object is acquired through repeated operation, high resolution reconstruction for the acquired magnetic resonance data of each layer is sequentially carried out, and the multilayer high resolution magnetic resonance image is acquired.

Description

technical field [0001] The invention relates to a magnetic resonance imaging method, in particular to a multi-layer ultra-fast magnetic resonance imaging method based on segmental excitation space-time encoding. Background technique [0002] Ultra-fast magnetic resonance imaging technology plays an important role in some medical applications and research that require high time resolution, such as diffusion tensor imaging (diffusion tensor imaging, DTI), functional imaging (functionalMRI, fMRI), real-time dynamic imaging (real-time imaging) )Wait. Among many ultra-fast methods, single-scan echo-planar imaging (EPI) has become the most popular ultra-fast imaging technology due to its high time resolution. EPI performs fast sampling through a series of rapidly switched gradient echoes, and one magnetic resonance image can be obtained with one excitation. However, the EPI imaging method is easily affected by the inhomogeneity of the magnetic field and the chemical shift effect...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01R33/565
CPCG01R33/56527
Inventor 蔡淑惠张婷蔡聪波李敬陈林黄建攀
Owner XIAMEN UNIV
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