Reproducibility of relaxometry of human lumbar vertebrae at 3 Tesla usingH MR spectroscopy

Bernhard Neumayer, Thomas Widek, Rudolf Stollberger, Eva Scheurer

Research output: Contribution to journalArticleResearchpeer-review

Abstract

BACKGROUND: MR spectroscopy is widely used for fat fraction quantification of human lumbar vertebrae. However, the measurements need to be corrected for relaxation effects.

PURPOSE: The aim of this study was to determine the reproducibility of relaxometry in human lumbar vertebrae required for the correction of fat fraction measurements using magnetic resonance spectroscopy at 3 Tesla. Such information provides error estimates and guidance regarding reliability for future studies.

STUDY TYPE: Prospective.

SUBJECTS: Forty-six healthy volunteers (22 female [f], 24 male [m]) participated in this study.

FIELD STRENGTH: All subjects underwent three consecutive multi-TE/multi-TRMR spectroscopy measurements at 3 Tesla.

ASSESSMENT: A total of 2580 spectra of lumbar vertebrae L2 and L3 of 43 subjects (21f, 22m) were quantified using jMRUI software. Data were exported and mono-exponential fits were applied to the signals of water and fat compartments to derive relaxation times and calculate the fat fraction corrected for relaxation effects. Finally, relaxation times and fat fraction results of repeated measurements were analyzed for reproducibility.

STATISTICAL TESTS: Reproducibility was evaluated by calculating the coefficient of variation (CV). Influences of volunteer age and sex were tested by analysis of covariance.

RESULTS: The CV for all calculated parameters ranged between 1.22% (T2of the fat compartment) and 3.02% (T1of the fat compartment). Relaxation times and fat fraction were statistically different for female and male volunteers (P < 0.01) and relaxation times of the water compartment showed significant (P < 0.01) correlation with the fat fraction.

DATA CONCLUSION: Based on repeated acquisitions using the measurement parameters applied in this study, magnetic resonance spectroscopy allowed a reproducible calculation of the fat fraction corrected for relaxation effects. T1of the water compartment showed high reproducibility and correlation with the fat fraction. It, therefore, might be considered as a parameter linked to the composition of the water compartment and patient health.

LEVEL OF EVIDENCE: 1 Technical Efficacy Stage 1 J. Magn. Reson. Imaging 2017.

Original languageEnglish
JournalJournal of magnetic resonance imaging
DOIs
Publication statusE-pub ahead of print - 12 Dec 2017

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Lumbar Vertebrae
Magnetic Resonance Spectroscopy
Fats
Water
Volunteers
Spectrum Analysis
Healthy Volunteers
Software

Keywords

  • Journal Article

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Reproducibility of relaxometry of human lumbar vertebrae at 3 Tesla usingH MR spectroscopy. / Neumayer, Bernhard; Widek, Thomas; Stollberger, Rudolf; Scheurer, Eva.

In: Journal of magnetic resonance imaging, 12.12.2017.

Research output: Contribution to journalArticleResearchpeer-review

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title = "Reproducibility of relaxometry of human lumbar vertebrae at 3 Tesla usingH MR spectroscopy",
abstract = "BACKGROUND: MR spectroscopy is widely used for fat fraction quantification of human lumbar vertebrae. However, the measurements need to be corrected for relaxation effects.PURPOSE: The aim of this study was to determine the reproducibility of relaxometry in human lumbar vertebrae required for the correction of fat fraction measurements using magnetic resonance spectroscopy at 3 Tesla. Such information provides error estimates and guidance regarding reliability for future studies.STUDY TYPE: Prospective.SUBJECTS: Forty-six healthy volunteers (22 female [f], 24 male [m]) participated in this study.FIELD STRENGTH: All subjects underwent three consecutive multi-TE/multi-TRMR spectroscopy measurements at 3 Tesla.ASSESSMENT: A total of 2580 spectra of lumbar vertebrae L2 and L3 of 43 subjects (21f, 22m) were quantified using jMRUI software. Data were exported and mono-exponential fits were applied to the signals of water and fat compartments to derive relaxation times and calculate the fat fraction corrected for relaxation effects. Finally, relaxation times and fat fraction results of repeated measurements were analyzed for reproducibility.STATISTICAL TESTS: Reproducibility was evaluated by calculating the coefficient of variation (CV). Influences of volunteer age and sex were tested by analysis of covariance.RESULTS: The CV for all calculated parameters ranged between 1.22{\%} (T2of the fat compartment) and 3.02{\%} (T1of the fat compartment). Relaxation times and fat fraction were statistically different for female and male volunteers (P < 0.01) and relaxation times of the water compartment showed significant (P < 0.01) correlation with the fat fraction.DATA CONCLUSION: Based on repeated acquisitions using the measurement parameters applied in this study, magnetic resonance spectroscopy allowed a reproducible calculation of the fat fraction corrected for relaxation effects. T1of the water compartment showed high reproducibility and correlation with the fat fraction. It, therefore, might be considered as a parameter linked to the composition of the water compartment and patient health.LEVEL OF EVIDENCE: 1 Technical Efficacy Stage 1 J. Magn. Reson. Imaging 2017.",
keywords = "Journal Article, MRI, Biomedical Engineering",
author = "Bernhard Neumayer and Thomas Widek and Rudolf Stollberger and Eva Scheurer",
note = "{\circledC} 2017 International Society for Magnetic Resonance in Medicine.",
year = "2017",
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language = "English",
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AU - Neumayer, Bernhard

AU - Widek, Thomas

AU - Stollberger, Rudolf

AU - Scheurer, Eva

N1 - © 2017 International Society for Magnetic Resonance in Medicine.

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Y1 - 2017/12/12

N2 - BACKGROUND: MR spectroscopy is widely used for fat fraction quantification of human lumbar vertebrae. However, the measurements need to be corrected for relaxation effects.PURPOSE: The aim of this study was to determine the reproducibility of relaxometry in human lumbar vertebrae required for the correction of fat fraction measurements using magnetic resonance spectroscopy at 3 Tesla. Such information provides error estimates and guidance regarding reliability for future studies.STUDY TYPE: Prospective.SUBJECTS: Forty-six healthy volunteers (22 female [f], 24 male [m]) participated in this study.FIELD STRENGTH: All subjects underwent three consecutive multi-TE/multi-TRMR spectroscopy measurements at 3 Tesla.ASSESSMENT: A total of 2580 spectra of lumbar vertebrae L2 and L3 of 43 subjects (21f, 22m) were quantified using jMRUI software. Data were exported and mono-exponential fits were applied to the signals of water and fat compartments to derive relaxation times and calculate the fat fraction corrected for relaxation effects. Finally, relaxation times and fat fraction results of repeated measurements were analyzed for reproducibility.STATISTICAL TESTS: Reproducibility was evaluated by calculating the coefficient of variation (CV). Influences of volunteer age and sex were tested by analysis of covariance.RESULTS: The CV for all calculated parameters ranged between 1.22% (T2of the fat compartment) and 3.02% (T1of the fat compartment). Relaxation times and fat fraction were statistically different for female and male volunteers (P < 0.01) and relaxation times of the water compartment showed significant (P < 0.01) correlation with the fat fraction.DATA CONCLUSION: Based on repeated acquisitions using the measurement parameters applied in this study, magnetic resonance spectroscopy allowed a reproducible calculation of the fat fraction corrected for relaxation effects. T1of the water compartment showed high reproducibility and correlation with the fat fraction. It, therefore, might be considered as a parameter linked to the composition of the water compartment and patient health.LEVEL OF EVIDENCE: 1 Technical Efficacy Stage 1 J. Magn. Reson. Imaging 2017.

AB - BACKGROUND: MR spectroscopy is widely used for fat fraction quantification of human lumbar vertebrae. However, the measurements need to be corrected for relaxation effects.PURPOSE: The aim of this study was to determine the reproducibility of relaxometry in human lumbar vertebrae required for the correction of fat fraction measurements using magnetic resonance spectroscopy at 3 Tesla. Such information provides error estimates and guidance regarding reliability for future studies.STUDY TYPE: Prospective.SUBJECTS: Forty-six healthy volunteers (22 female [f], 24 male [m]) participated in this study.FIELD STRENGTH: All subjects underwent three consecutive multi-TE/multi-TRMR spectroscopy measurements at 3 Tesla.ASSESSMENT: A total of 2580 spectra of lumbar vertebrae L2 and L3 of 43 subjects (21f, 22m) were quantified using jMRUI software. Data were exported and mono-exponential fits were applied to the signals of water and fat compartments to derive relaxation times and calculate the fat fraction corrected for relaxation effects. Finally, relaxation times and fat fraction results of repeated measurements were analyzed for reproducibility.STATISTICAL TESTS: Reproducibility was evaluated by calculating the coefficient of variation (CV). Influences of volunteer age and sex were tested by analysis of covariance.RESULTS: The CV for all calculated parameters ranged between 1.22% (T2of the fat compartment) and 3.02% (T1of the fat compartment). Relaxation times and fat fraction were statistically different for female and male volunteers (P < 0.01) and relaxation times of the water compartment showed significant (P < 0.01) correlation with the fat fraction.DATA CONCLUSION: Based on repeated acquisitions using the measurement parameters applied in this study, magnetic resonance spectroscopy allowed a reproducible calculation of the fat fraction corrected for relaxation effects. T1of the water compartment showed high reproducibility and correlation with the fat fraction. It, therefore, might be considered as a parameter linked to the composition of the water compartment and patient health.LEVEL OF EVIDENCE: 1 Technical Efficacy Stage 1 J. Magn. Reson. Imaging 2017.

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KW - MRI

KW - Biomedical Engineering

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JO - Journal of magnetic resonance imaging

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