Phantom design method for high-field MRI human systems

Qing X. Yang; Jinghua Wang; Christopher M. Collins; Michael B. Smith; Xiaoliang Zhang; Kamil Ugurbil; Wei Chen

doi:10.1002/mrm.20245

Phantom design method for high-field MRI human systems

Qing X. Yang, Jinghua Wang, Christopher M. Collins, Michael B. Smith, Xiaoliang Zhang, Kamil Ugurbil, Wei Chen

Radiology

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28 Scopus citations

Abstract

A phantom design method suitable for high-field MRI based on the RF field wave characteristics of sample and experimental validations at 7.0 T and 3.0 T are presented. The RF field distribution in a phantom with a given RF coil system is primarily determined by the sample size relative to the wavelength inside the sample, and the ratio between the displacement and conduction currents. Experimental results demonstrate that the MR image intensity patterns associated with wave behavior in human samples at a given field strength can be reproduced with a phantom at the same or different field strengths once the dimension and penetration constant are scaled by the corresponding wavelength in the sample medium.

Original language	English (US)
Pages (from-to)	1016-1020
Number of pages	5
Journal	Magnetic resonance in medicine
Volume	52
Issue number	5
DOIs	https://doi.org/10.1002/mrm.20245
State	Published - Nov 2004

Keywords

High-field MRI
MRI
Phantom design
RF coil
RF field

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title = "Phantom design method for high-field MRI human systems",

abstract = "A phantom design method suitable for high-field MRI based on the RF field wave characteristics of sample and experimental validations at 7.0 T and 3.0 T are presented. The RF field distribution in a phantom with a given RF coil system is primarily determined by the sample size relative to the wavelength inside the sample, and the ratio between the displacement and conduction currents. Experimental results demonstrate that the MR image intensity patterns associated with wave behavior in human samples at a given field strength can be reproduced with a phantom at the same or different field strengths once the dimension and penetration constant are scaled by the corresponding wavelength in the sample medium.",

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AU - Wang, Jinghua

AU - Collins, Christopher M.

AU - Smith, Michael B.

AU - Zhang, Xiaoliang

AU - Ugurbil, Kamil

AU - Chen, Wei

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AB - A phantom design method suitable for high-field MRI based on the RF field wave characteristics of sample and experimental validations at 7.0 T and 3.0 T are presented. The RF field distribution in a phantom with a given RF coil system is primarily determined by the sample size relative to the wavelength inside the sample, and the ratio between the displacement and conduction currents. Experimental results demonstrate that the MR image intensity patterns associated with wave behavior in human samples at a given field strength can be reproduced with a phantom at the same or different field strengths once the dimension and penetration constant are scaled by the corresponding wavelength in the sample medium.

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KW - MRI

KW - Phantom design

KW - RF coil

KW - RF field

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Phantom design method for high-field MRI human systems

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