Abstract

Experimental results are presented demonstrating how temperature can influence the dynamics of magnetic nanoparticles (MNPs) in liquid suspension, when exposed to alternating magnetic fields in the kilohertz frequency range. The measurements used to probe the nanoparticle systems are directly linked to both the emerging biomedical technique of magnetic particle imaging (MPI), and to the recently proposed concept of remote nanoscale thermometry using MNPs under AC field excitation. Here, we report measurements on three common types of MNPs, two of which are currently leading candidates for use as tracers in MPI. Using highly-sensitive magnetic particle spectroscopy (MPS), we demonstrate significant and divergent thermal dependences in several key measures used in the evaluation of MNP dynamics for use in MPI and other applications. The temperature range studied was between 296 and 318 Kelvin, making our findings of particular importance for MPI and other biomedical technologies. Furthermore, we report the detection of the same temperature dependences in measurements conducted using the detection coils within an operational preclinical MPI scanner. This clearly shows the importance of considering temperature during MPI development, and the potential for temperature-resolved MPI using this system. We propose possible physical explanations for the differences in the behaviors observed between the different particle types, and discuss our results in terms of the opportunities and concerns they raise for MPI and other MNP based technologies.

Highlights

  • Since 2005, magnetic particle imaging (MPI) has emerged as an innovative new modality within biomedical imaging.[1]

  • The complementary capabilities and technology-overlap between these emerging techniques results in intriguing possibilities for their combination into advanced medical treatment, in which the accuracy and dosimetry of deeptissue magnetic hyperthermia is monitored by real-time measurement of the magnetic nanoparticles (MNPs) position and local temperature.[10,11]

  • It is in this context that we investigate the temperature dependence of the dynamic magnetization of MNPs in liquid suspension

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Summary

Temperature dependence in magnetic particle imaging

James Wells,a Hendrik Paysen, Olaf Kosch, Lutz Trahms, and Frank Wiekhorst Physikalisch-Technische Bundesanstalt, Abbestraße 2-12, 10587 Berlin, Germany (Presented 7 November 2017; received 13 September 2017; accepted 16 October 2017; published online 7 December 2017). We report the detection of the same temperature dependences in measurements conducted using the detection coils within an operational preclinical MPI scanner. This clearly shows the importance of considering temperature during MPI development, and the potential for temperature-resolved MPI using this system.

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