Dependence of  and  field patterns of surface coils on the electrical properties of the sample and the <scp>MR</scp> operating frequency

Vaidya, Manushka; Collins, Christopher M.; Sodickson, Daniel K.; Brown, Ryan; Wiggins, Graham C.; Lattanzi, Riccardo

doi:10.1002/cmr.b.21319

Cited by 73 publications

(92 citation statements)

References 47 publications

(164 reference statements)

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“…Figure illustrates how the object's dielectric properties influence the

| {normalB}_{1}^{-} |

field pattern at 64 MHz. This effect is even more pronounced as the operating frequency increases, in which features such as the so‐called dielectric brightening and B 1 twisting are clearly visible, indicating the presence of interference patterns and conduction currents in the sample .…”

Section: Methodsmentioning

confidence: 97%

“…To motivate the use of tissue‐equivalent phantoms in MRI, we performed full‐wave simulations using an analytic framework based on dyadic Green's functions with objects of various dielectric properties. In particular, we simulated the

| {normalB}_{1}^{-} |

field of a surface loop coil in the central transverse plane of a head‐sized cylindrical phantom.…”

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

Synthesized tissue‐equivalent dielectric phantoms using salt and polyvinylpyrrolidone solutions

Ianniello

Zwart

Duan

et al. 2017

Magnetic Resonance in Med

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PVP-based phantoms are easy to prepare and nontoxic, and their semitransparency makes air bubbles easy to identify. The polymer can be used to create simulated material with a range of dielectric properties, negligible spectral side peaks, and long T relaxation time, which are favorable in many MR applications. Magn Reson Med 80:413-419, 2018. © 2017 International Society for Magnetic Resonance in Medicine.

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“…Figure illustrates how the object's dielectric properties influence the

| {normalB}_{1}^{-} |

Section: Methodsmentioning

confidence: 97%

| {normalB}_{1}^{-} |

field of a surface loop coil in the central transverse plane of a head‐sized cylindrical phantom.…”

Section: Methodsmentioning

confidence: 99%

Synthesized tissue‐equivalent dielectric phantoms using salt and polyvinylpyrrolidone solutions

Ianniello

Zwart

Duan

et al. 2017

Magnetic Resonance in Med

Self Cite

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“…Figure c shows the frequency dependence of the B y mode versus the copper connector length. Finally, the effect of the phantom's conductivity on the

{normalB}_{1}^{+}

was examined and is shown in http://onlinelibrary.wiley.com/store/10.1002/mrm.26301/asset/supinfo/mrm26301-sup-0001-suppinfo.pdf?v=1&s=697352a1a323cae037b1da7b64abfeb284bd332d, which shows an asymmetry of the

{normalB}_{1}^{+}

that increases with higher conductivity, in line with work on different coil geometries .…”

Section: Resultsmentioning

confidence: 93%

Quadrature operation of segmented dielectric resonators facilitated with metallic connectors

2016

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“…Regarding the mechanism of influence of a pad on the magnetic field in the object, it is known that dielectric and conductive pads behave differently . It has been discussed and demonstrated that according to the modified Ampere’s law, displacement currents in a pad, which are induced by the “primary” B 1 field of the RF coil, act as a secondary source and result in enhancement of the B 1 field in regions of the object proximal to the pad.…”

Section: Resultsmentioning

confidence: 99%

“…where

normalσ

is the conductivity,

ε_{r}

is relative permittivity,

ε_{0}

is free‐space permittivity,

normalω

is the Larmor frequency, and

{normalB}_{1}^{+} = {(B}_{1x} + {iB}_{1y})/2

is the transmit magnetic field . Equation will be referred to as the standard MREPT (std‐MREPT) method for the reconstruction of EPs.…”

Section: Introductionmentioning

confidence: 99%

Use of dielectric padding to eliminate low convective field artifact in cr‐MREPT conductivity images

Yildiz

Ider

2019

Magnetic Resonance in Med

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Purpose Convection–reaction equation‐based magnetic resonance electrical properties tomography (cr‐MREPT) provides conductivity images that are boundary artifact‐free and robust against noise. However, these images suffer from the low convective field (LCF) artifact. We propose to use dielectric pads to alter the transmit magnetic field (B1+), shift the LCF region, and eliminate the LCF artifact. Methods Computer simulations were conducted to analyze the effects of pad electrical properties, pad thickness, pad height, arc angle, and thickness of the pad–object gap. In 3T MR experiments, water pads and BaTiO3 pads were used with agar–saline phantoms. Two data sets (e.g., with the pad located on the left or on the right of the object [phantom]) were acquired, and the corresponding linear systems were simultaneously solved to get LCF artifact‐free conductivity images. Results A pad needed to have 180° arc angle and the same height with the phantom for maximum benefit. Increasing the pad thickness and/or the relative permittivity of the pad increased the LCF shift, whereas excessive amounts of these parameters caused errors in conductivity reconstructions because the effect of neglected Bz terms became noticeable. Conductivity of the pad, on the other hand, had minimal effect on elimination of the LCF artifact. Combining 2 data sets (i.e., with 2 different dielectric pad positions) resulted in more accurate conductivity maps (low L2‐errors) as opposed to no pad or single pad cases in experiments and simulations. Conclusions Using the proposed technique, LCF artifact is significantly removed, and the reconstructed conductivity values are improved.

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Dependence of and field patterns of surface coils on the electrical properties of the sample and the MR operating frequency

Cited by 73 publications

References 47 publications

Synthesized tissue‐equivalent dielectric phantoms using salt and polyvinylpyrrolidone solutions

Synthesized tissue‐equivalent dielectric phantoms using salt and polyvinylpyrrolidone solutions

Quadrature operation of segmented dielectric resonators facilitated with metallic connectors

Use of dielectric padding to eliminate low convective field artifact in cr‐MREPT conductivity images

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