Affiliation:
1. High‐Field MR Center Max Planck Institute for Biological Cybernetics Tübingen Germany
2. Department for Biomedical Magnetic Resonance University of Tübingen Tübingen Germany
Abstract
AbstractPurposeThe aim of this work is to evaluate a new eight‐channel transceiver (TxRx) coaxial dipole array for imaging of the human head at 9.4T developed to improve specific absorption rate (SAR) performance, and provide for a more compact and robust alternative to the state‐of‐the art dipole arrays.MethodsFirst, the geometry of a single coaxial element was optimized to minimize peak SAR and sensitivity to the load variation. Next, a multi‐tissue voxel model was used to numerically simulate a TxRx array coil that consisted of eight coaxial dipoles with the optimal configuration. Finally, we compared the developed array to other human head dipole arrays. Results of numerical simulations were verified on a bench and in the scanner including in vivo measurements on a healthy volunteer.ResultsThe developed eight‐element coaxial dipole TxRx array coil showed up to 1.1times higher SAR‐efficiency than a similar in geometry folded‐end and fractionated dipole array while maintaining whole brain coverage and low sensitivity of the resonance frequency to variation in the head size.ConclusionAs a proof of concept, we developed and constructed a prototype of a 9.4T (400 MHz) human head array consisting of eight TxRx coaxial dipoles. The developed array improved SAR‐efficiency and provided for a more compact and robust alternative to the folded‐end dipole design. To the best of our knowledge, this is the first example of using coaxial dipoles for human head MRI at ultra‐high field.
Subject
Radiology, Nuclear Medicine and imaging
Cited by
1 articles.
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