Traveling Wave Magnetic Particle Imaging

Author

Vogel, P. ; Ruckert, M.A. ; Klauer, Peter ; Kullmann, W.H. ; Jakob, P.M. ; Behr, V.C.

Author_Institution

Dept. for Exp. Physikcs 5, Univ. of Wurzburg, Würzburg, Germany

Volume

33

Issue

2

fYear

2014

fDate

Feb. 2014

Firstpage

400

Lastpage

407

Abstract

Most 3-D magnetic particle imaging (MPI) scanners currently use permanent magnets to create the strong gradient field required for high resolution MPI. However, using permanent magnets limits the field of view (FOV) due to the large amount of energy required to move the field free point (FFP) from the center of the scanner. To address this issue, an alternative approach called “Traveling Wave MPI” is here presented. This approach employs a novel gradient system, the dynamic linear gradient array, to cover a large FOV while dynamically creating a strong magnetic gradient. The proposed design also enables the use of a so-called line-scanning mode, which simplifies the FFP trajectory to a linear path through the 3-D volume. This results in simplified mathematics, which facilitates the image reconstruction.

Keywords

biomagnetism; biomedical MRI; image reconstruction; magnetic particles; medical image processing; permanent magnets; MRI; dynamic linear gradient array; field free point; field-of-view; high resolution 3D magnetic particle imaging scanners; image reconstruction; line-scanning mode; novel gradient system; permanent magnets; strong gradient field; traveling wave magnetic particle imaging; Coils; Educational institutions; Image reconstruction; Magnetic fields; Permanent magnets; Three-dimensional displays; Trajectory; Gradient array; magnetic particle imaging (MPI); tomographic imaging; traveling wave;

fLanguage

English

Journal_Title

Medical Imaging, IEEE Transactions on

Publisher

ieee

ISSN

0278-0062

Type

jour

DOI

10.1109/TMI.2013.2285472

Filename

6630097