High-performance permanent magnet array design by a fast genetic algorithm (GA)-based optimization for low-field portable MRI

[Display omitted] •In this paper, we present a new optimized cylindrical magnet array based on inward-outward ring configuration which has an average field strength of 101.5 mT, a longitudinal field direction, and a nearly monotonic field pattern with average inhomogeneity of 6.97 mT (an average RF...

Full description

Saved in:
Bibliographic Details
Published in:Journal of magnetic resonance (1997) 2022-12, Vol.345, p.107309-107309, Article 107309
Main Authors: Liang, Ting-Ou, Koh, Yan Hao, Qiu, Tie, Li, Erping, Yu, Wenwei, Huang, Shao Ying
Format: Article
Language:English
Subjects:
Low-field MRI
Magnetic Resonance Imaging
Permanent magnet array
PMA
Portable MRI
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •In this paper, we present a new optimized cylindrical magnet array based on inward-outward ring configuration which has an average field strength of 101.5 mT, a longitudinal field direction, and a nearly monotonic field pattern with average inhomogeneity of 6.97 mT (an average RF bandwidth of 6.9 %) within a Field of View (FoV) of 200 mm in diameter and 125-mm long for head imaging.•It can work with gradient coils in the other two directions, or can be rotated to encode the signal by itself for imaging. For the rotation, the part that need to be rotated is designed to be light, 15 kg out of a total weight of 151 kg. Meanwhile, it is compact (616 mm wide, 480 mm long) and has a 5-Gauss range of 1840 × 1840 × 2340 mm3, allowing an operation in a small space. It has a magnetic field generation efficiency of 0.67 mT/kg, which is high among the sparse permanent magnet arrays that are designed for a FoV of 20 cm in diameter. This proposed magnet array can be a promising alternative to supply the main field and gradient fields combined for dedicated portable MRI.•The proposed magnet array supplies a high magnetic field in the axial direction that is the same as that of a superconducting-magnet system, which opens up numerous opportunities to apply the technical advancement developed for the existing MRI systems to further develop a portable MRI based on permanent magnet arrays. Lightweight and compact permanent magnet arrays (PMAs) are suitable for portable dedicated magnetic resonance imaging (MRI). It is worth exploring different PMA design possibilities and optimization methods with an adequate balance between weight, size, and performance, in addition to Halbach arrays and C-shaped/H-shaped magnets which are widely used. In this paper, the design and optimization of a sparse high-performance inward-outward ring-pair PMA consisting of magnet cuboids is presented for portable imaging of the brain. The design is lightweight (151kg) and compact (inner bore diameter: 270mm, outer diameter: 616mm, length: 480mm, 5-Gauss range: 1840×1840×2340mm3). The optimization framework is based on the genetic algorithm with a consideration of both field properties and simulated image quality. The resulting PMA design has an average field strength of 101.5 mT and a field pattern with a built-in linear readout gradient. Subtracting the best fit to the linear gradient target resulted in a residual deviation from the target field of 0.76mT and an average linear r
ISSN:1090-7807
1096-0856
DOI:10.1016/j.jmr.2022.107309