Multi-Contrast Magnetic Particle Imaging

Magnetic particle imaging is a tracer-based tomographic imaging technique that uses static and oscillating magnetic fields to generate an image contrast from the spatial distribution of magnetic nanoparticles. Recent investigations have shown that multi-contrast MPI is able to generate additional contrasts from different tracer materials or their environments. In this project we investigate tracer properties and properties of the particle environment that influence the tracer relaxation behavior using multi-contrast MPI, such as

To speed up the multi-contrast MPI image reconstruction, we have introduced an accelerated Kaczmarz algorithm. we have also introduced some potential medical and physical applications of multi-contrast MPI, such as 3D tracking of endovascular devices and balloon catheter imaging

Using the Accelerated Kaczmarz for multi-contrast MPI reconstruction speeds up the convergence.

Publications

[164778]
Title: First Complex Trials Using a Dedicated Balloon Catheter for Magnetic Particle Imaging.
Written by: P. Szwargulski, T. Knopp, M. Boberg, J. Salamon, V. Scheitenberger, T. Göttsche, R. Linemann, F. Wegner, T. Friedrich, J. Barkhausen, T. M. Buzug, and M. Ahlborg
in: <em>International Journal on Magnetic Particle Imaging</em>. (2022).
Volume: <strong>8</strong>. Number: (1),
on pages: 1-4
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DOI: 10.18416/IJMPI.2022.2203004
URL: https://journal.iwmpi.org/index.php/iwmpi/article/view/385
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[www]

Note: inproceedings, multi-patch, multi-contrast

Abstract: A recent work introduced a balloon catheter from a polymer mixed with magnetic nanoparticles that was visible in magnetic particle imaging (MPI) in initial trials. In this work, dynamic multi-patch and multi-contrast experiments were performed to validate the usability of the balloon catheter for complex application scenarios. In both cases, the balloon was successfully imaged, although there are limitations in resolution and dynamic imaging range.