Increased volume coverage in 3D magnetic particle imaging

Magnetic particle imaging (MPI) is a new tomographic imaging approach that detects and localizes magnetic nano-particles by their non-linear magnetization response to externally applied fields. MPI allows quantitative, sensitive, and rapid volumetric imaging of distributions of particles injected into the blood stream. Initial experiments showing 3D real-time in-vivo imaging of mice were conducted using small imaging volumes covering a single organ. In view of scaling up the hardware for future clinical imaging, the imaging volume has to be increased. This contribution describes the basics of particle detection and spatial encoding in MPI, limitations to the imaging volume, and one approach to circumvent these limitations. Experimental results with increased volume coverage are presented.

[1]  B Gleich,et al.  Experimental results on fast 2D-encoded magnetic particle imaging , 2008, Physics in medicine and biology.

[2]  R. Costo,et al.  Progress in the preparation of magnetic nanoparticles for applications in biomedicine , 2003, Magnetic Nanoparticles in Biosensing and Medicine.

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

[4]  Patrick W. Goodwill,et al.  Multidimensional X-Space Magnetic Particle Imaging , 2011, IEEE Transactions on Medical Imaging.

[5]  Achiya Dax,et al.  On Row Relaxation Methods for Large Constrained Least Squares Problems , 1993, SIAM J. Sci. Comput..

[6]  Patrick W. Goodwill,et al.  The X-Space Formulation of the Magnetic Particle Imaging Process: 1-D Signal, Resolution, Bandwidth, SNR, SAR, and Magnetostimulation , 2010, IEEE Transactions on Medical Imaging.

[7]  Bernhard Gleich,et al.  Signal encoding in magnetic particle imaging: properties of the system function , 2009, BMC Medical Imaging.

[8]  M Hasegawa,et al.  Magnetic Iron Oxide Particles Coated with Carboxydextran for Parenteral Administration and Liver Contrasting , 1997, Acta radiologica.

[9]  Thorsten M. Buzug,et al.  Prediction of the Spatial Resolution of Magnetic Particle Imaging Using the Modulation Transfer Function of the Imaging Process , 2011, IEEE Transactions on Medical Imaging.

[10]  B Gleich,et al.  Three-dimensional real-time in vivo magnetic particle imaging , 2009, Physics in medicine and biology.

[11]  R. R. Ernst,et al.  NMR Fourier zeugmatography. , 2011, Journal of magnetic resonance.

[12]  Bernhard Gleich,et al.  2D model-based reconstruction for magnetic particle imaging. , 2010, Medical physics.

[13]  B Gleich,et al.  Trajectory analysis for magnetic particle imaging , 2008, Physics in medicine and biology.