B1-based SAR reconstruction using contrast source inversion–electric properties tomography (CSI-EPT)
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Publication date
2017-02-01
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Abstract
Specific absorption rate (SAR) assessment is essential for safety purposes during MR acquisition. Online SAR assessment is not trivial and requires, in addition, knowledge of the electric tissue properties and the electric fields in the human anatomy. In this study, the potential of the recently developed CSI-EPT method to reconstruct SAR distributions is investigated. This method is based on integral representations for the electromagnetic field and attempts to reconstruct the tissue parameters and the electric field strength based on B1+ field data only. Full three-dimensional FDTD simulations using a female pelvis model are used to validate two-dimensional CSI reconstruction results in the central transverse plane of a 3T body coil. Numerical experiments demonstrate that the reconstructed SAR distributions are in good agreement with the SAR distributions as determined via 3D FDTD simulations and show that these distributions can be computed very efficiently in the central transverse plane of a body coil with the two-dimensional approach of CSI-EPT.
Keywords
Electric properties tomography (EPT), B1 maps, Conductivity, Contrast source inversion (CSI), Specific absorption rate (SAR), Electric properties tomography (EPT), Biomedical Engineering, Computer Science Applications, Journal Article
Citation
Balidemaj, E, van den Berg, C A T, van Lier, A L H M W, Nederveen, A J, Stalpers, L J A, Crezee, H & Remis, R F 2017, 'B1-based SAR reconstruction using contrast source inversion–electric properties tomography (CSI-EPT)', Medical & Biological Engineering & Computing, vol. 55, no. 2, pp. 225-233. https://doi.org/10.1007/s11517-016-1497-6