Effect of PRESS and STEAM sequences on magnetic resonance spectroscopic liver fat quantification

Gavin Hamilton; Michael S. Middleton; Mark Bydder; Takeshi Yokoo; Jeffrey B. Schwimmer; Yuko Kono; Heather M. Patton; Joel E. Lavine; Claude B. Sirlin

doi:10.1002/jmri.21809

Effect of PRESS and STEAM sequences on magnetic resonance spectroscopic liver fat quantification

Gavin Hamilton, Michael S. Middleton, Mark Bydder, Takeshi Yokoo, Jeffrey B. Schwimmer, Yuko Kono, Heather M. Patton, Joel E. Lavine, Claude B. Sirlin

Research output: Contribution to journal › Article › peer-review

184 Scopus citations

Abstract

Purpose: To compare PRESS and STEAM MR spectroscopy for assessment of liver fat in human subjects. Materials and Methods: Single-voxel (20 x 20 x 20 mm) PRESS and STEAM spectra were obtained at 1.5T in 49 human subjects with known or suspected fatty liver disease. PRESS and STEAM sequences were obtained with fixed TR (1500 msec) and different TE (five PRESS spectra between TE 30-70 msec, five STEAM spectra between TE 20-60 msec). Spectra were quantified and T2 and T2-corrected peak area were calculated by different techniques. The values were compared for PRESS and STEAM. Results: Water T2 values from PRESS and STEAM were not significantly different (P = 0.33). Fat peak T2s were 25%-50% shorter on PRESS than on STEAM (P < 0.02 for all comparisons) and there was no correlation between T2s of individual peaks. PRESS systematically overestimated the relative fat peak areas (by 7%-263%) compared to STEAM (P < 0.005 for all comparisons). The peak area given by PRESS was more dependent on the T2-correction technique than STEAM. Conclusion: Measured liver fat depends on the MRS sequence used. Compared to STEAM, PRESS underestimates T2 values of fat, overestimates fat fraction, and provides a less consistent fat fraction estimate, probably due to J coupling effects.

Original language	English (US)
Pages (from-to)	145-152
Number of pages	8
Journal	Journal of Magnetic Resonance Imaging
Volume	30
Issue number	1
DOIs	https://doi.org/10.1002/jmri.21809
State	Published - Jul 2009

Keywords

Liver fat quantification
Magnetic resonance spectroscopy
PRESS
STEAM

ASJC Scopus subject areas

Radiology Nuclear Medicine and imaging

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10.1002/jmri.21809

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title = "Effect of PRESS and STEAM sequences on magnetic resonance spectroscopic liver fat quantification",

abstract = "Purpose: To compare PRESS and STEAM MR spectroscopy for assessment of liver fat in human subjects. Materials and Methods: Single-voxel (20 x 20 x 20 mm) PRESS and STEAM spectra were obtained at 1.5T in 49 human subjects with known or suspected fatty liver disease. PRESS and STEAM sequences were obtained with fixed TR (1500 msec) and different TE (five PRESS spectra between TE 30-70 msec, five STEAM spectra between TE 20-60 msec). Spectra were quantified and T2 and T2-corrected peak area were calculated by different techniques. The values were compared for PRESS and STEAM. Results: Water T2 values from PRESS and STEAM were not significantly different (P = 0.33). Fat peak T2s were 25%-50% shorter on PRESS than on STEAM (P < 0.02 for all comparisons) and there was no correlation between T2s of individual peaks. PRESS systematically overestimated the relative fat peak areas (by 7%-263%) compared to STEAM (P < 0.005 for all comparisons). The peak area given by PRESS was more dependent on the T2-correction technique than STEAM. Conclusion: Measured liver fat depends on the MRS sequence used. Compared to STEAM, PRESS underestimates T2 values of fat, overestimates fat fraction, and provides a less consistent fat fraction estimate, probably due to J coupling effects.",

keywords = "Liver fat quantification, Magnetic resonance spectroscopy, PRESS, STEAM",

author = "Gavin Hamilton and Middleton, {Michael S.} and Mark Bydder and Takeshi Yokoo and Schwimmer, {Jeffrey B.} and Yuko Kono and Patton, {Heather M.} and Lavine, {Joel E.} and Sirlin, {Claude B.}",

year = "2009",

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doi = "10.1002/jmri.21809",

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T1 - Effect of PRESS and STEAM sequences on magnetic resonance spectroscopic liver fat quantification

AU - Hamilton, Gavin

AU - Middleton, Michael S.

AU - Bydder, Mark

AU - Yokoo, Takeshi

AU - Schwimmer, Jeffrey B.

AU - Kono, Yuko

AU - Patton, Heather M.

AU - Lavine, Joel E.

AU - Sirlin, Claude B.

PY - 2009/7

Y1 - 2009/7

N2 - Purpose: To compare PRESS and STEAM MR spectroscopy for assessment of liver fat in human subjects. Materials and Methods: Single-voxel (20 x 20 x 20 mm) PRESS and STEAM spectra were obtained at 1.5T in 49 human subjects with known or suspected fatty liver disease. PRESS and STEAM sequences were obtained with fixed TR (1500 msec) and different TE (five PRESS spectra between TE 30-70 msec, five STEAM spectra between TE 20-60 msec). Spectra were quantified and T2 and T2-corrected peak area were calculated by different techniques. The values were compared for PRESS and STEAM. Results: Water T2 values from PRESS and STEAM were not significantly different (P = 0.33). Fat peak T2s were 25%-50% shorter on PRESS than on STEAM (P < 0.02 for all comparisons) and there was no correlation between T2s of individual peaks. PRESS systematically overestimated the relative fat peak areas (by 7%-263%) compared to STEAM (P < 0.005 for all comparisons). The peak area given by PRESS was more dependent on the T2-correction technique than STEAM. Conclusion: Measured liver fat depends on the MRS sequence used. Compared to STEAM, PRESS underestimates T2 values of fat, overestimates fat fraction, and provides a less consistent fat fraction estimate, probably due to J coupling effects.

AB - Purpose: To compare PRESS and STEAM MR spectroscopy for assessment of liver fat in human subjects. Materials and Methods: Single-voxel (20 x 20 x 20 mm) PRESS and STEAM spectra were obtained at 1.5T in 49 human subjects with known or suspected fatty liver disease. PRESS and STEAM sequences were obtained with fixed TR (1500 msec) and different TE (five PRESS spectra between TE 30-70 msec, five STEAM spectra between TE 20-60 msec). Spectra were quantified and T2 and T2-corrected peak area were calculated by different techniques. The values were compared for PRESS and STEAM. Results: Water T2 values from PRESS and STEAM were not significantly different (P = 0.33). Fat peak T2s were 25%-50% shorter on PRESS than on STEAM (P < 0.02 for all comparisons) and there was no correlation between T2s of individual peaks. PRESS systematically overestimated the relative fat peak areas (by 7%-263%) compared to STEAM (P < 0.005 for all comparisons). The peak area given by PRESS was more dependent on the T2-correction technique than STEAM. Conclusion: Measured liver fat depends on the MRS sequence used. Compared to STEAM, PRESS underestimates T2 values of fat, overestimates fat fraction, and provides a less consistent fat fraction estimate, probably due to J coupling effects.

KW - Liver fat quantification

KW - Magnetic resonance spectroscopy

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Effect of PRESS and STEAM sequences on magnetic resonance spectroscopic liver fat quantification

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