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Magnetic Particle Imaging: From Tracer Design to Biomedical Applications in Vasculature Abnormality

Xulin Xie, Jiao Zhai, Xiaoyu Zhou, Zhengjun Guo, Pui‐Chi Lo, Guangyu Zhu, Kannie W. Y. Chan, Mengsu Yang

2023Advanced Materials50 citationsDOI

Abstract

Magnetic particle imaging (MPI) is an emerging non-invasive tomographic technique based on the response of magnetic nanoparticles (MNPs) to oscillating drive fields at the center of a static magnetic gradient. In contrast to magnetic resonance imaging (MRI), which is driven by uniform magnetic fields and projects the anatomic information of the subjects, MPI directly tracks and quantifies MNPs in vivo without background signals. Moreover, it does not require radioactive tracers and has no limitations on imaging depth. This article first introduces the basic principles of MPI and important features of MNPs for imaging sensitivity, spatial resolution, and targeted biodistribution. The latest research aiming to optimize the performance of MPI tracers is reviewed based on their material composition, physical properties, and surface modifications. While the unique advantages of MPI have led to a series of promising biomedical applications, recent development of MPI in investigating vascular abnormalities in cardiovascular and cerebrovascular systems, and cancer are also discussed. Finally, recent progress and challenges in the clinical translation of MPI are discussed to provide possible directions for future research and development.

Topics & Concepts

Magnetic particle imagingMaterials scienceTRACERAbnormalityParticle (ecology)Biomedical engineeringNuclear magnetic resonanceNanotechnologyMagnetic nanoparticlesMedicineNanoparticleBiologyPhysicsPsychiatryNuclear physicsEcologyCharacterization and Applications of Magnetic NanoparticlesGeomagnetism and Paleomagnetism StudiesMicrofluidic and Bio-sensing Technologies
Magnetic Particle Imaging: From Tracer Design to Biomedical Applications in Vasculature Abnormality | Litcius