Interleaved B0-Mapping During Dynamic Creatine-CEST for Correction of Temporarily Fluctuating B0 Inhomogeneities During Plantar Flexion Exercise at 7T

Esaú Poblador Rodríguez

Interleaved B0-Mapping During Dynamic Creatine-CEST for Correction of Temporarily Fluctuating B0 Inhomogeneities During Plantar Flexion Exercise at 7T

Esaú Poblador Rodríguez

Medical University of Vienna

Research output: Contribution to conference › Poster › peer-review

Abstract

Chemical Exchange Saturation Transfer is prone to inhomogeneities of the static magnetic field (B0). Hence, accurate frequency correction is mandatory for reliable quantification. Currently established B0 correction approaches assume B0 inhomogeneities to be static during CEST experiments, but this is questionable in the presence of subject motion and scanner instabilities. Thus, we propose three different dynamic B0 correction methods for CEST that can compensate for B0 instability for each Z-spectral point separately and compare them to three established static B0 correction approaches that apply the same frequency shift to all Z-spectral points in phantom and in vivo experiments.

Original language	English
Pages	#3758
Publication status	Published - 2017
Externally published	Yes
Event	ISMRM 25th Annual Meeting & Exhibition - Hawai'i Convention Center, Honolulu, United States Duration: 22 Apr 2017 → 27 Apr 2017 https://www.ismrm.org/2017-annual-meeting-exhibition/

Conference

Conference	ISMRM 25th Annual Meeting & Exhibition
Country/Territory	United States
City	Honolulu
Period	22/04/17 → 27/04/17
Internet address	https://www.ismrm.org/2017-annual-meeting-exhibition/

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https://archive.ismrm.org/2018/2246.htmlLicence: Unspecified

Cite this

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title = "Interleaved B0-Mapping During Dynamic Creatine-CEST for Correction of Temporarily Fluctuating B0 Inhomogeneities During Plantar Flexion Exercise at 7T",

abstract = "Chemical Exchange Saturation Transfer is prone to inhomogeneities of the static magnetic field (B0). Hence, accurate frequency correction is mandatory for reliable quantification. Currently established B0 correction approaches assume B0 inhomogeneities to be static during CEST experiments, but this is questionable in the presence of subject motion and scanner instabilities. Thus, we propose three different dynamic B0 correction methods for CEST that can compensate for B0 instability for each Z-spectral point separately and compare them to three established static B0 correction approaches that apply the same frequency shift to all Z-spectral points in phantom and in vivo experiments.",

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T1 - Interleaved B0-Mapping During Dynamic Creatine-CEST for Correction of Temporarily Fluctuating B0 Inhomogeneities During Plantar Flexion Exercise at 7T

AU - Poblador Rodríguez, Esaú

PY - 2017

Y1 - 2017

N2 - Chemical Exchange Saturation Transfer is prone to inhomogeneities of the static magnetic field (B0). Hence, accurate frequency correction is mandatory for reliable quantification. Currently established B0 correction approaches assume B0 inhomogeneities to be static during CEST experiments, but this is questionable in the presence of subject motion and scanner instabilities. Thus, we propose three different dynamic B0 correction methods for CEST that can compensate for B0 instability for each Z-spectral point separately and compare them to three established static B0 correction approaches that apply the same frequency shift to all Z-spectral points in phantom and in vivo experiments.

AB - Chemical Exchange Saturation Transfer is prone to inhomogeneities of the static magnetic field (B0). Hence, accurate frequency correction is mandatory for reliable quantification. Currently established B0 correction approaches assume B0 inhomogeneities to be static during CEST experiments, but this is questionable in the presence of subject motion and scanner instabilities. Thus, we propose three different dynamic B0 correction methods for CEST that can compensate for B0 instability for each Z-spectral point separately and compare them to three established static B0 correction approaches that apply the same frequency shift to all Z-spectral points in phantom and in vivo experiments.

M3 - Poster

SP - #3758

T2 - ISMRM 25th Annual Meeting & Exhibition

Y2 - 22 April 2017 through 27 April 2017

ER -

Interleaved B0-Mapping During Dynamic Creatine-CEST for Correction of Temporarily Fluctuating B0 Inhomogeneities During Plantar Flexion Exercise at 7T

Abstract

Conference

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