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Bimodal TWMPI-MRI hybrid scanner - First NMR results

MPI [1] detects the nonlinear response of superparamagnetic particles directly without any background signal. This leads to the problem of getting an image with no information about the surrounding tissue, which can be important for medical applications. It relies therefore on the anatomical backgro...

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Main Authors:	Klauer, Peter, Vogel, Patrick, Ruckert, Martin A., Behr, Volker C.
Format:	Conference Proceeding
Language:	English
Subjects:	Arrays Current measurement Magnetic fields Magnetic resonance imaging Nonhomogeneous media Nuclear magnetic resonance
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creator	Klauer, Peter Vogel, Patrick Ruckert, Martin A. Behr, Volker C.
description	MPI [1] detects the nonlinear response of superparamagnetic particles directly without any background signal. This leads to the problem of getting an image with no information about the surrounding tissue, which can be important for medical applications. It relies therefore on the anatomical background information obtained by MRI or CT. Several attempts combining both imaging modalities (MPI and MRI) in one device were shown in [2] [3]. In [2] a Traveling Wave MPI scanner (TWMPI) [4] was used together with a low field MRI (LFMRI) scanner. The theoretical approach of using the TWMPI scanner itself for generating a homogenous magnetic field for MRI was shown in [5]. The first results of this new approach are presented in this abstract.
doi_str_mv	10.1109/IWMPI.2015.7106987
format	conference_proceeding
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identifier	ISBN: 147997269X
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Arrays Current measurement Magnetic fields Magnetic resonance imaging Nonhomogeneous media Nuclear magnetic resonance
title	Bimodal TWMPI-MRI hybrid scanner - First NMR results
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