Journal of Cardiovascular Magnetic Resonance | |
The effect of high-permittivity pads on specific absorption rate in radiofrequency-shimmed dual-transmit cardiovascular magnetic resonance at 3T | |
Research | |
Andrew G. Webb1  Wyger M. Brink1  Johan S. van den Brink2  | |
[1] C.J. Gorter Center for High Field MRI, Department of Radiology, Leiden University Medical Center, Leiden, The Netherlands;Philips Healthcare, Best, The Netherlands; | |
关键词: High permittivity materials; Specific absorption rate; Cardiovascular magnetic resonance; Dual-channel transmit; RF homogeneity; | |
DOI : 10.1186/s12968-015-0188-z | |
received in 2014-08-29, accepted in 2015-09-02, 发布年份 2015 | |
来源: Springer | |
【 摘 要 】
BackgroundDual-channel transmit technology improves the image quality in cardiovascular magnetic resonance (CMR) at 3 T by reducing the degree of radiofrequency (RF) shading over the heart by using RF shimming. Further improvements in image quality have been shown on a dual-transmit system using high permittivity pads. The aim of this study is to investigate the transmit field (B1+) homogeneity and the specific absorption rate (SAR) using high permittivity pads as a function of the complete range of possible RF-shim settings in order to gauge the efficacy and safety of this approach.MethodsElectromagnetic (EM) simulations were performed in five different body models using a dual-transmit RF coil, with and without high permittivity pads. The RF shimming behaviour in terms of B1+ homogeneity and local SAR were determined as a function of different RF-shim settings. Comparative experimental data were obtained in healthy volunteers (n = 33) on either a standard-bore (60 cm diameter) or wide-bore (70 cm diameter) 3 T CMR system.ResultsEM simulations and experimental data showed higher (B1+) homogeneity and lower SAR for optimized RF-shim settings when using the high permittivity pads. The power distribution between the two channels was also much closer to being equal using the pads. EM simulations showed that for all five body models studied, optimized RF-shim settings corresponded to reduced local SAR using high permittivity pads. However, there are also specific, non-optimal RF-shim settings for which the actual SAR using the pads would be higher (up to ~20 %) than that calculated by the CMR system.ConclusionsThe combination of active (dual transmit) and passive (high permittivity pads) RF shimming shows great promise for increasing image quality for cardiac imaging at 3 T. Optimized RF-shim settings result in increased B1+ homogeneity and reduced SAR with the high permittivity pads: however, there are non-optimal cases in which SAR might be underestimated, and these merit further investigation.
【 授权许可】
CC BY
© Brink et al. 2015
【 预 览 】
Files | Size | Format | View |
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RO202311100242855ZK.pdf | 3149KB | download |
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