Elasticity modulus reconstruction method and system for magnetic resonance elastography

A technology of magnetic resonance elasticity and elastic modulus, which is applied in special data processing applications, instruments, electrical digital data processing, etc., and can solve problems such as huge amount of calculation, limited precision, and inability to estimate accurate elastic coefficients due to sharp boundaries

Active Publication Date: 2013-04-17
SHENZHEN INST OF ADVANCED TECH
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Problems solved by technology

Currently proposed elastic modulus reconstruction methods include: (1) Local Frequency Estimation (LFE) algorithm and its variants, this algorithm will assume that the medium is uniform and incompressible, and ignore the attenuation in fluctuations, mechanical waves The propagation equation in the medium is therefore simplified to the Helmholtz equation, which is used as a model to solve the direct inverse problem algebraically, but the local frequency estimation algorithm has the defects of low resolution and limited precision, and cannot estimate the sharp boundary. Accurate elastic coefficient, the ...

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  • Elasticity modulus reconstruction method and system for magnetic resonance elastography
  • Elasticity modulus reconstruction method and system for magnetic resonance elastography
  • Elasticity modulus reconstruction method and system for magnetic resonance elastography

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Embodiment Construction

[0057] Such as figure 1 As shown, a method for reconstructing elastic modulus in magnetic resonance elastography includes the following steps:

[0058] Step S10, assuming that the surface of the imaging tissue is a planar domain, and obtaining the initial value of the displacement in the planar domain, the displacement of the sub-region in the planar domain, and the derivative of the displacement to the unknown elastic modulus through the finite volume element algorithm.

[0059] In this embodiment, under certain conditions, an elastic body that is in equilibrium under the action of an external force can be regarded as a planar elastic problem, while in magnetic resonance elastography, the external force applied to the imaging tissue is very small, and the The imaged tissue is considered to be in equilibrium, so the relationship between stress and strain in magnetic resonance elastography can be viewed as a planar elasticity problem.

[0060] Consider the surface of the imagi...

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Abstract

The invention provides elasticity modulus reconstruction method and system for magnetic resonance elastography. The method includes: assuming the surface of image issue as a plane domain, and solving by finite volume element algorithm to obtain a displacement initial value in the plane domain, displacement of subdomains in the plane domain, and derivatives of the displacement to unknown elasticity modulus; subjecting the displacement and derivatives obtained by solving by the finite volume element algorithm to Newton iteration to obtain an elasticity modulus value, and stopping Newton iteration until an optimization problem square difference corresponding to the elasticity modulus value is smaller than a preset tolerated error and a preset number of iterations reaches; and composing the elasticity modulus values obtained by final iteration into elasticity modulus distribution of the image tissue. Calculated amount can be reduced by the use of the method and system.

Description

technical field [0001] The present invention relates to magnetic resonance imaging technology, in particular to an elastic modulus reconstruction method and system in magnetic resonance elastography. Background technique [0002] Elasticity is an important mechanical parameter in the physical properties of human tissues. The elastic changes of biological tissues are usually closely related to certain pathological phenomena. That is to say, there are often differences in elastic modulus between diseased tissues and normal tissues. This difference provides important reference information for the diagnosis of clinical diseases. [0003] As a non-invasive imaging method, Magnetic Resonance Elastography (MRE) can intuitively display and quantify the elasticity of human internal tissues, realize elastic imaging of human internal tissues, and make "image palpation" possible. Implications for treatment and monitoring of breast cancer detection, liver cirrhosis staging, atherosclero...

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Application Information

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IPC IPC(8): G06F19/00
Inventor 丁玉琼梁栋蔡葳蕤钟耀祖张丽娟刘新郑海荣
Owner SHENZHEN INST OF ADVANCED TECH
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