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Evaluation of 8-Channel Radiative Antenna Arrays for Human Head Imaging at 10.5 Tesla

Myung Kyun Woo, Lance DelaBarre, Matt Waks, Young Woo Park, Russell Lagore, Steve Jungst, Yiğitcan Eryaman, Se‐Hong Oh, Kǎmil Uǧurbil, Gregor Adriany

2021Sensors16 citationsDOIOpen Access PDF

Abstract

For human head magnetic resonance imaging at 10.5 tesla (T), we built an 8-channel transceiver dipole antenna array and evaluated the influence of coaxial feed cables. The influence of coaxial feed cables was evaluated in simulation and compared against a physically constructed array in terms of transmit magnetic field (B1+) and specific absorption rate (SAR) efficiency. A substantial drop (23.1% in simulation and 20.7% in experiment) in B1+ efficiency was observed with a tight coaxial feed cable setup. For the investigation of the feed location, the center-fed dipole antenna array was compared to two 8-channel end-fed arrays: monopole and sleeve antenna arrays. The simulation results with a phantom indicate that these arrays achieved ~24% higher SAR efficiency compared to the dipole antenna array. For a human head model, we observed 30.8% lower SAR efficiency with the 8-channel monopole antenna array compared to the phantom. Importantly, our simulation with the human model indicates that the sleeve antenna arrays can achieve 23.8% and 21% higher SAR efficiency compared to the dipole and monopole antenna arrays, respectively. Finally, we obtained high-resolution human cadaver images at 10.5 T with the 8-channel sleeve antenna array.

Topics & Concepts

Dipole antennaHuman headImaging phantomAntenna (radio)Monopole antennaSpecific absorption rateCoaxial antennaOpticsPhysicsRadiation patternAcousticsMaterials scienceElectrical engineeringEngineeringAbsorption (acoustics)Advanced MRI Techniques and ApplicationsMicrowave Imaging and Scattering AnalysisUltrasound Imaging and Elastography
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