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Toward Human-Scale Magnetic Particle Imaging: Development of the First System With Superconductor- Based Selection Coils

Tuan‐Anh Le, Minh Phú Bùi, Yaser Hadadian, Khaled Mohamed Gadelmowla, Seungjun Oh, Chaemin Im, Seungyong Hahn, Jungwon Yoon

2024IEEE Transactions on Medical Imaging20 citationsDOI

Abstract

Magnetic Particle Imaging (MPI) is an emerging tomographic modality that allows for precise three-dimensional (3D) mapping of magnetic nanoparticles (MNPs) concentration and distribution. Although significant progress has been made towards improving MPI since its introduction, scaling it up for human applications has proven challenging. High-quality images have been obtained in animal-scale MPI scanners with gradients up to 7 T/m/ , however, for MPI systems with bore diameters around 200 mm the gradients generated by electromagnets drop significantly to below 0.5 T/m/ . Given the current technological limitations in image reconstruction and the properties of available MNPs, these low gradients inherently impose limitations on improving MPI resolution for higher precision medical imaging. Utilizing superconductors stands out as a promising approach for developing a human-scale MPI system. In this study, we introduce, for the first time, a human-scale amplitude modulation (AM) MPI system with superconductor-based selection coils. The system achieves an unprecedented magnetic field gradient of up to 2.5 T/m/ within a 200 mm bore diameter, enabling large fields of view of mm3 at 2.5 T/m/ for 3D imaging. While obtained spatial resolution is in the order of previous animal-scale AM MPIs, incorporating superconductors for achieving such high gradients in a 200 mm bore diameter marks a major step toward clinical MPI.

Topics & Concepts

Selection (genetic algorithm)Scale (ratio)Magnetic resonance imagingSuperconductivityMagnetic particle imagingBiomagnetismSuperconducting magnetSuperconducting CoilsNuclear magnetic resonanceComputer scienceMagnetic nanoparticlesArtificial intelligenceMaterials sciencePhysicsMagnetic fieldCondensed matter physicsNanotechnologyMedicineRadiologyQuantum mechanicsNanoparticleCharacterization and Applications of Magnetic NanoparticlesGeomagnetism and Paleomagnetism StudiesMagnetic Field Sensors Techniques
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