An mri magnetic signal enhancement device based on conformal design

A magnetic signal and device technology, which is applied in the field of MRI magnetic signal enhancement devices, can solve the problems of unsatisfactory users and high quality, and achieve the effects of improving comfort, enhancing magnetic signals, and enhancing imaging quality

Active Publication Date: 2016-09-07
KUANG CHI INST OF ADVANCED TECH
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Problems solved by technology

These coils typically conform to the contours of the body part being imaged, or at least come within close proximity to these parts during the examination, and the receive coils of existing MRI equipment must come in fairly close proximity to the part being measured in order to obtain the data from the part being measured. For the released magnetic signal, the flat-plate metamaterial MRI magnetic signal enhancement device can no longer meet the needs of users for special detection parts, that is, the flat-plate metamaterial MRI magnetic signal enhancement device cannot produce high-quality imaging for some special parts

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  • An mri magnetic signal enhancement device based on conformal design
  • An mri magnetic signal enhancement device based on conformal design
  • An mri magnetic signal enhancement device based on conformal design

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Embodiment Construction

[0024] The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments.

[0025] The present invention provides an MRI magnetic signal enhancement device, comprising a metamaterial layer 7 and a protective layer 6, such as figure 1 As shown, the metamaterial layer 7 includes a substrate 4 and a plurality of first magnetic artificial microstructures 1 and second magnetic artificial microstructures 2 arranged in periodic arrays on both sides of the substrate 4, the substrate 4 is a flexible substrate, and the first magnetic artificial microstructures The microstructure 1 and the second magnetic artificial microstructure 2 are connected through metal vias 3 , and the metamaterial layer 7 is embedded in the protective layer 6 .

[0026] The composition principle and beneficial effects of the negative magnetic permeability metamaterial of the embodiment of the present invention will be described in detail below with reference to...

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Abstract

The invention provides an MRI (magnetic resonance imaging) magnetic signal enhancing device based on conformal design. The MRI magnetic signal enhancing device comprises a metamaterial layer and a protecting layer. The metamaterial layer embedded in the protecting layer comprises a flexible substrate and a plurality of first artificial magnetic micro-structures and a plurality of second artificial magnetic micro-structures. The first artificial magnetic micro-structures and the second artificial magnetic micro-structures are arranged on two sides of the substrate in a periodic array manner and connected through metal via holes. Due to the fact that the artificial micro-structures are magnetic, when frequency of the magnetic micro-structures under negative permeability is identical with working frequency of MRI, magnetic signals received by receiving coils can be enhanced, and the receiving coils do not need to be abutted against a to-be-measured part. In the mean time, conformal design of the overall structure of the MRI magnetic signal enhancing device can increase comfortableness of users.

Description

technical field [0001] The invention relates to the field of MRI, in particular to an MRI magnetic signal enhancement device based on conformal design. Background technique [0002] Metamaterials refer to some artificial composite structures or composite materials with extraordinary physical properties that natural materials do not have. Through the orderly design of the structure of the key physical scale of the material, the limitations of some apparent natural laws can be broken through, so as to obtain the supernormal material function beyond the ordinary properties inherent in nature. The properties and functions of metamaterials are mainly derived from their internal structure rather than the materials from which they are composed. [0003] The full name of MRI is Magnetic Resonance Imaging (Magnetic Resonance Imaging). Magnetic Resonance Imaging is a type of tomographic imaging. It uses magnetic resonance phenomena to obtain electromagnetic signals from the human bod...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B5/055H01Q15/00
Inventor 刘若鹏栾琳郭洁余铨强杨宗荣
Owner KUANG CHI INST OF ADVANCED TECH
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