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Single-Sided Magnetic Particle Imaging Device With Field-Free-Line Geometry for <i>In Vivo</i> Imaging Applications

Jason Pagan, Chris McDonough, Triet Vo, Alexey Tonyushkin

2020IEEE Transactions on Magnetics26 citationsDOIOpen Access PDF

Abstract

Magnetic Particle Imaging (MPI) has shown great promise to surpass existing in vivo imaging modalities in some clinical applications. However, one of the challenges to MPI being translated into clinical practice has been the ability to scale up the selection field coils to surround a human body while being able to generate and drive a sufficiently strong magnetic field gradient. These requirements impose safety concerns as well as prohibitively high-power consumption in devices with large cylindrical volume. Therefore, we consider an alternative approach such as a single-sided topology, in which all the hardware is located on one side of the imaging volume accommodating larger subjects. Moreover, different from the previously implemented field-free point single-sided scanners, we realized a field-free line geometry providing, in principle, factor of ten higher signal and benefiting from a more robust back-projection image reconstruction technique. In this work, we present and characterize a first prototype of a single-sided MPI device with field-free-line geometry suited for in-vivo imaging of small animals as well as regions of interest in humans.

Topics & Concepts

Magnetic particle imagingComputer scienceLine (geometry)Field (mathematics)Point (geometry)Projection (relational algebra)Magnetic fieldPhysicsGeometryMagnetic nanoparticlesMaterials scienceNanotechnologyAlgorithmPure mathematicsMathematicsQuantum mechanicsNanoparticleCharacterization and Applications of Magnetic NanoparticlesMagnetic properties of thin filmsGeomagnetism and Paleomagnetism Studies
Single-Sided Magnetic Particle Imaging Device With Field-Free-Line Geometry for <i>In Vivo</i> Imaging Applications | Litcius