Volumetric wireless coil based on periodically coupled split-loop resonators for clinical wrist imaging
Shchelokova, Alena V; van den Berg, Cornelis A T; Dobrykh, Dmitry A; Glybovski, Stanislav B; Zubkov, Mikhail A; Brui, Ekaterina A; Dmitriev, Dmitry S; Kozachenko, Alexander V; Efimtcev, Alexander Y; Sokolov, Andrey V; Fokin, Vladimir A; Melchakova, Irina V; Belov, Pavel A
(2018) Magnetic Resonance in Medicine, volume 80, issue 4, pp. 1726 - 1737
(Article)
Abstract
PURPOSE: Design and characterization of a new inductively driven wireless coil (WLC) for wrist imaging at 1.5 T with high homogeneity operating due to focusing the B1 field of a birdcage body coil. METHODS: The WLC design has been proposed based on a volumetric self-resonant periodic structure of inductively coupled
... read more
split-loop resonators with structural capacitance. The WLC was optimized and studied regarding radiofrequency fields and interaction to the birdcage coil (BC) by electromagnetic simulations. The manufactured WLC was characterized by on-bench measurements and in vivo and phantom study in comparison to a standard cable-connected receive-only coil. RESULTS: The WLC placed into BC gave the measured B1+ increase of the latter by 8.6 times for the same accepted power. The phantom and in vivo wrist imaging showed that the BC in receiving with the WLC inside reached equal or higher signal-to-noise ratio than the conventional clinical setup comprising the transmit-only BC and a commercial receive-only flex-coil and created no artifacts. Simulations and on-bench measurements proved safety in terms of specific absorption rate and reflected transmit power. CONCLUSIONS: The results showed that the proposed WLC could be an alternative to standard cable-connected receive coils in clinical magnetic resonance imaging. As an example, with no cable connection, the WLC allowed wrist imaging on a 1.5 T clinical machine using a full-body BC for transmitting and receive with the desired signal-to-noise ratio, image quality, and safety.
show less
Download/Full Text
The full text of this publication is not available.
Keywords: metasolenoid, SNR enhancement, split-loop resonators, transmit efficiency, wireless coil, Wrist/diagnostic imaging, Humans, Signal-To-Noise Ratio, Radio Waves, Equipment Design, Image Processing, Computer-Assisted/methods, Magnetic Resonance Imaging/instrumentation, Phantoms, Imaging, Wireless Technology/instrumentation, Radiology Nuclear Medicine and imaging, Research Support, Non-U.S. Gov't, Journal Article
ISSN: 0740-3194
Publisher: John Wiley and Sons Inc.
Note: Funding Information: The Government of the Russian Federation, Grant No. 074-U01; The Ministry of Education and Science of the Russian Federation, Zadanie No. 3.2465.2017/4.6 Funding Information: The authors thank Prof. Constantin Simovski, Prof. Sergey Tretyakov, Dr. Nikolai Avdievitch and Dr. Alexey Sloboz-hanyuk for useful discussion. The authors thank Dr. Redha Abdeddaim for useful discussion and the idea of using telescopic tubes and for showing a good place in Paris to buy them. The numerical calculations were supported by the Government of the Russian Federation (Grant No. 074-U01). Experimental studies were supported by the Ministry of Education and Science of the Russian Federation (Zadanie No. 3.2465.2017/4.6). Publisher Copyright: © 2018 International Society for Magnetic Resonance in Medicine Copyright: Copyright 2020 Elsevier B.V., All rights reserved.
(Peer reviewed)