Organ Specific Head Coil for High Resolution Mouse Brain Perfusion Imaging using Magnetic Particle Imaging

Magnetic Particle Imaging (MPI) is a novel and versatile imaging modality developing towards human application. When up-scaling to human size, the sensitivity of the systems naturally drops as the coil sensitivity depends on the bore diameter. Thus, new methods to push the sensitivity limit further have to be investigated to cope for this loss. In this paper a dedicated surface coil improving the sensitvity in cerebral imaging applications was developed. Similar to MRI the developed surface coil improves the sensitivity due to the closer vicinity to the region of interest. With the developed surface coil presented in this work, it is possible to image tracer samples containing only 896 pg iron and detect even small vessels and anatomical structures within a wild type mouse model. As current sensitivity measures are dependent on the tracer system a new method for determining a sensitivity measure without this dependence on the tracer is presented and verified to enable comparison between MPI receiver systems.

[1]  Jochen Franke,et al.  Magnetic Particle Imaging: A Resovist based Marking Technology for Guide Wires and Catheters for Vascular Interventions. , 2016, IEEE transactions on medical imaging.

[2]  T Knopp,et al.  Human-sized magnetic particle imaging for brain applications , 2018, Nature Communications.

[3]  R. Leahy,et al.  Digimouse: a 3D whole body mouse atlas from CT and cryosection data , 2007, Physics in medicine and biology.

[4]  T. Buzug,et al.  System calibration unit for magnetic particle imaging: System matrix , 2013, 2013 International Workshop on Magnetic Particle Imaging (IWMPI).

[5]  Bernhard Gleich,et al.  Quantitative “Hot-Spot” Imaging of Transplanted Stem Cells Using Superparamagnetic Tracers and Magnetic Particle Imaging , 2015, Tomography.

[6]  E. Saritas,et al.  Relaxation-based color magnetic particle imaging for viscosity mapping , 2019, Applied Physics Letters.

[7]  Martin Möddel,et al.  Viscosity quantification using multi-contrast magnetic particle imaging , 2018, New Journal of Physics.

[8]  Jonathan Carter,et al.  Magnetic Particle Imaging for Highly Sensitive, Quantitative, and Safe in Vivo Gut Bleed Detection in a Murine Model. , 2017, ACS nano.

[9]  Bernhard Gleich,et al.  Interactive Magnetic Catheter Steering With 3-D Real-Time Feedback Using Multi-Color Magnetic Particle Imaging , 2017, IEEE Transactions on Medical Imaging.

[10]  Thilo Viereck,et al.  Dual-frequency magnetic particle imaging of the Brownian particle contribution , 2017 .

[11]  Jochen Franke,et al.  System Characterization of a Highly Integrated Preclinical Hybrid MPI-MRI Scanner , 2016, IEEE Transactions on Medical Imaging.

[12]  Bo Zheng,et al.  First in vivo traumatic brain injury imaging via magnetic particle imaging , 2017, Physics in medicine and biology.

[13]  Bernhard Gleich,et al.  Tomographic imaging using the nonlinear response of magnetic particles , 2005, Nature.

[14]  Matthias Graeser,et al.  Analog receive signal processing for magnetic particle imaging. , 2013, Medical physics.

[15]  T. M. Buzug,et al.  1D-image reconstruction for magnetic particle imaging using a hybrid system function , 2011, 2011 IEEE Nuclear Science Symposium Conference Record.

[16]  Justin J. Konkle,et al.  Magnetic Particle Imaging With Tailored Iron Oxide Nanoparticle Tracers , 2015, IEEE Transactions on Medical Imaging.

[17]  Matthias Graeser,et al.  Towards Picogram Detection of Superparamagnetic Iron-Oxide Particles Using a Gradiometric Receive Coil , 2017, Scientific Reports.

[18]  Kannan M. Krishnan,et al.  Tuning Surface Coatings of Optimized Magnetite Nanoparticle Tracers for In Vivo Magnetic Particle Imaging , 2015, IEEE Transactions on Magnetics.

[19]  Matthias Graeser,et al.  Magnetic Particle Imaging for Real-Time Perfusion Imaging in Acute Stroke. , 2017, ACS nano.

[20]  S. Conolly,et al.  High-power active interference suppression in magnetic particle imaging , 2013, 2013 International Workshop on Magnetic Particle Imaging (IWMPI).

[21]  T Knopp,et al.  Hybrid system calibration for multidimensional magnetic particle imaging , 2017, Physics in medicine and biology.

[22]  Tobias Knopp,et al.  MPIReco.jl: Julia Package for Image Reconstruction in MPI , 2019 .

[23]  Bernhard Gleich,et al.  Simultaneous magnetic particle imaging (MPI) and temperature mapping using multi-color MPI , 2016 .

[24]  Bo Zheng,et al.  First in vivo magnetic particle imaging of lung perfusion in rats , 2017, Physics in medicine and biology.

[25]  T M Buzug,et al.  Two dimensional magnetic particle spectrometry , 2017, Physics in medicine and biology.