Magnetic Nanoparticles: Particle Science, Imaging Technology, and Clinical Applications : Proceedings of the First International Workshop on Magnetic Particle ImagingWorld Scientific, 2010 - 246 Seiten In these proceedings, an overview on recent results of a novel imaging modality based on magnetic nanoparticles is given. This imaging concept, called magnetic particle imaging (MPI), falls into the category of functional imaging and, hence, the magnetic nanoparticles may serve as tracers of metabolic processes. Today, there are interesting challenges within the practical set-up of a scanning device and also in the design of new MPI nanoparticles. During this workshop at the University of L beck in 2010, scientists from chemical engineering, biology, electrical engineering, physics, computer sciences and medicine discussed the promises and challenges of MPI. |
Inhalt
MAGNETIC NANOPARTICLES | 17 |
MAGNETIC PARTICLE SPECTROMETRY | 51 |
MAGNETIC PARTICLE IMAGING | 91 |
IMAGING TECHNOLOGY AND SAFETY ASPECTS | 133 |
MAGNETORELAXOMETRY | 175 |
MEDICAL APPLICATIONS | 199 |
SHORT CONTRIBUTIONS | 235 |
AUTHOR INDEX | 241 |
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Aachen amplifier amplitude anisotropy applied Biederer Biomedical Borgert Braunschweig Brownian cancer cells clinical coil pairs concentration contrast agents core diameter detection dextran dipole distribution drive field encoding experimental ferrofluid Figure function Germany Germany Department Germany Email gradient harmonics implants iron oxide iron oxide nanoparticles JFET Knopp Langevin Lüdtke-Buzug lymph nodes Magn magnetic field magnetic moment magnetic nanoparticles magnetic particle imaging magnetic resonance magnetite magnetization curve magnetorelaxometry Maxwell coil measured Medical Engineering method monitoring mouse MPI signal nonlinear response optimal parameters particle imaging MPI Philips Research quantitative Radiology Rahmer Ratzeburger Ratzeburger Allee 160 RBCs receive coil reconstruction relaxation Resovist response of magnetic rotation RWTH Aachen University sample Sattel saturation magnetization scanner sensitivity setup shown simulation Sinerem single particle single-sided SPIO superparamagnetic superparamagnetic iron oxide superparamagnetic nanoparticles temperature tissue Tomographic imaging tracer tumor University of Lübeck vivo Weizenecker