An investigation into the minimum number of tissue groups required for 7T in-silico parallel transmit electromagnetic safety simulations in the human head

Purpose: Safety limits for the permitted Specific Absorption Rate (SAR) place restrictions on pulse sequence design, especially at ultra-high fields (\(\geq 7\) tesla). Due to inter-subject variability, the SAR is usually conservatively estimated based on standard human models that include an applie...

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Bibliographic Details
Published in:arXiv.org 2020-07
Main Authors: Matthijs H S de Buck, Jezzard, Peter, Jeong, Hongbae, Hess, Aaron T
Format: Article
Language:English
Subjects:
Cerebrospinal fluid
Clusters
Coils
Computer simulation
Safety margins
Simulation
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Summary:Purpose: Safety limits for the permitted Specific Absorption Rate (SAR) place restrictions on pulse sequence design, especially at ultra-high fields (\(\geq 7\) tesla). Due to inter-subject variability, the SAR is usually conservatively estimated based on standard human models that include an applied safety margin to ensure safe operation. One approach to reducing the restrictions is to create more accurate subject-specific models from their segmented MR images. This study uses electromagnetic simulations to investigate the minimum number of tissue groups required to accurately determine SAR in the human head. Methods: Tissue types from a fully characterized electromagnetic human model with 47 tissue types in the head and neck region were grouped into different tissue clusters based on the conductivities, permittivities, and mass densities of the tissues. Electromagnetic simulations of the head model inside a parallel transmit (pTx) head coil at 7T were used to determine the minimum number of required tissue clusters to accurately determine the subject-specific SAR. The identified tissue clusters were then evaluated using two additional well-characterized electromagnetic human models. Results: A minimum of 4 clusters plus air was found to be required for accurate SAR estimation. These tissue clusters are centered around gray matter, fat, cortical bone, and cerebrospinal fluid. For all three simulated models the pTx maximum 10gSAR was consistently determined to within an error of
ISSN:2331-8422