While magnetic particle imaging (MPI) constitutes a novel biomedical imaging technique for tracking superpara magnetic nanoparticles in vivo, unlike magnetic resonance imaging (MRI), it cannot provide anatomical background information. Until now these two modalities have been performed in separate scanners and image co-registration has been hampered by the need to reposition the sample in both systems as similarly as possible. This paper presents a bimodal MPI-MRI-tomograph that combines both modalities in a single system. MPI and MRI images can thus be acquired without moving the sample or replacing any parts in the setup. The images acquired with the presented setup show excellent agreement between the localization of the nano particles in MPI and the MRI background data. A combination of two highly complementary imaging modalities has been achieved.
%0 Journal Article
%1 vogel2014meets
%A Vogel, Patrick
%A Lother, Steffen
%A Rückert, Martin Andreas
%A Kullmann, Walter H
%A Jakob, Peter Michael
%A Fidler, Florian
%A Behr, Volker Christian
%D 2014
%J IEEE Trans. Med. Imag.
%K mri
%N 10
%P 1954-1959
%R 10.1109/TMI.2014.2327515
%T MRI Meets MPI: A Bimodal MPI-MRI Tomograph
%V 33
%X While magnetic particle imaging (MPI) constitutes a novel biomedical imaging technique for tracking superpara magnetic nanoparticles in vivo, unlike magnetic resonance imaging (MRI), it cannot provide anatomical background information. Until now these two modalities have been performed in separate scanners and image co-registration has been hampered by the need to reposition the sample in both systems as similarly as possible. This paper presents a bimodal MPI-MRI-tomograph that combines both modalities in a single system. MPI and MRI images can thus be acquired without moving the sample or replacing any parts in the setup. The images acquired with the presented setup show excellent agreement between the localization of the nano particles in MPI and the MRI background data. A combination of two highly complementary imaging modalities has been achieved.
@article{vogel2014meets,
abstract = {While magnetic particle imaging (MPI) constitutes a novel biomedical imaging technique for tracking superpara magnetic nanoparticles in vivo, unlike magnetic resonance imaging (MRI), it cannot provide anatomical background information. Until now these two modalities have been performed in separate scanners and image co-registration has been hampered by the need to reposition the sample in both systems as similarly as possible. This paper presents a bimodal MPI-MRI-tomograph that combines both modalities in a single system. MPI and MRI images can thus be acquired without moving the sample or replacing any parts in the setup. The images acquired with the presented setup show excellent agreement between the localization of the nano particles in MPI and the MRI background data. A combination of two highly complementary imaging modalities has been achieved.},
added-at = {2020-03-30T14:20:08.000+0200},
author = {Vogel, Patrick and Lother, Steffen and Rückert, Martin Andreas and Kullmann, Walter H and Jakob, Peter Michael and Fidler, Florian and Behr, Volker Christian},
biburl = {https://www.bibsonomy.org/bibtex/245610aba1cf5bb48d90cb3a15fb72fe8/ep5mri},
doi = {10.1109/TMI.2014.2327515},
interhash = {8be3ff710e5118018a4a76f5b92c1d51},
intrahash = {45610aba1cf5bb48d90cb3a15fb72fe8},
journal = {IEEE Trans. Med. Imag.},
keywords = {mri},
month = {10},
number = 10,
pages = {1954-1959},
timestamp = {2020-03-30T14:25:04.000+0200},
title = {MRI Meets MPI: A Bimodal MPI-MRI Tomograph},
volume = 33,
year = 2014
}