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Dual imaging agent for magnetic particle imaging and computed tomography

Sitong Liu, Anahita Heshmat, Jennifer S. Andrew, Izabella Barreto, Carlos Rinaldi

2023Nanoscale Advances11 citationsDOIOpen Access PDF

Abstract

transmission electron microscopy and elemental mapping. Equilibrium and dynamic magnetic characterization show a reduction in effective magnetic diameter and changes in dynamic magnetic susceptibility spectra at high oscillating field frequencies, suggesting magnetic interactions within the composite dual imaging tracers. The MPI performance of the dual imaging agent was evaluated and compared to the commercial tracer ferucarbotran. The dual-imaging agent has MPI sensitivity that is ∼3× better than this commercial tracer. However, worsening of MPI resolution was observed in the composite tracer when compared to individually coated SPIONs. This worsening resolution could result from magnetic dipolar interactions within the composite dual imaging tracer. The CT performance of the dual imaging agent was evaluated in a pre-clinical animal scanner and a clinical scanner, revealing better contrast compared to a commercial iodine-based contrast agent. We demonstrate that the dual imaging agent can be differentiated from the commercial iodine contrast agent using dual energy CT (DECT) imaging. Furthermore, the dual imaging agent displayed energy-dependent CT contrast arising from the combination of SPION and hafnia, making it potentially suitable for virtual monochromatic imaging of the contrast agent distribution using DECT.

Topics & Concepts

Magnetic particle imagingComputed tomographyTomographyComputed tomography laser mammographyRadiologyPreclinical imagingMedicinePhysicsMagnetic nanoparticlesQuantum mechanicsBiotechnologyNanoparticleBiologyIn vivoCharacterization and Applications of Magnetic NanoparticlesGeomagnetism and Paleomagnetism StudiesMinerals Flotation and Separation Techniques
Dual imaging agent for magnetic particle imaging and computed tomography | Litcius