Spiral Blurring Correction with Water-Fat Separation for Magnetic Resonance Fingerprinting in the Breast
PURPOSE: Magnetic Resonance Fingerprinting (MRF) with spiral readout enables rapid quantification of tissue relaxation times. However, it is prone to blurring due to off-resonance effects. Hence, fat blurring into adjacent regions might prevent identification of small tumors by their quantitative T1...
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| Main Authors | , , , , , , , |
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| Language | English |
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09.05.2019
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| Abstract | PURPOSE: Magnetic Resonance Fingerprinting (MRF) with spiral readout enables rapid quantification of tissue relaxation times. However, it is prone to blurring due to off-resonance effects. Hence, fat blurring into adjacent regions might prevent identification of small tumors by their quantitative T1 and T2 values. This study aims to correct for the blurring artifacts, thereby enabling fast quantitative mapping in the female breast. METHODS: The impact of fat blurring on spiral MRF results was first assessed by simulations. Then, MRF was combined with 3-point Dixon water-fat separation and spiral blurring correction based on conjugate phase reconstruction. The approach was assessed in phantom experiments and compared to Cartesian reference measurements, namely inversion recovery (IR), multi-echo spin echo (MESE) and Cartesian MRF, by normalized root mean square error (NRMSE) and standard deviation (STD) calculations. Feasibility is further demonstrated in-vivo for quantitative breast measurements of 6 healthy female volunteers, age range 24-31 years. RESULTS: In the phantom experiment, the blurring correction reduced the NRMSE per phantom vial on average from 16% to 8% for T1 and from 18% to 11% for T2 when comparing spiral MRF to IR/MESE sequences. When comparing to Cartesian MRF, the NRMSE reduced from 15% to 8% for T1 and from 12% to 7% for T2. Furthermore, STDs decreased. In-vivo, the blurring correction removed fat bias on T1/T2 from a rim of about 7-8 mm width adjacent to fatty structures. CONCLUSION: The blurring correction for spiral MRF yields improved quantitative maps in the presence of water and fat. |
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| AbstractList | J. Magn Reson Med 2020; 83(4):1192-1207 PURPOSE: Magnetic Resonance Fingerprinting (MRF) with spiral readout enables
rapid quantification of tissue relaxation times. However, it is prone to
blurring due to off-resonance effects. Hence, fat blurring into adjacent
regions might prevent identification of small tumors by their quantitative T1
and T2 values. This study aims to correct for the blurring artifacts, thereby
enabling fast quantitative mapping in the female breast.
METHODS: The impact of fat blurring on spiral MRF results was first assessed
by simulations. Then, MRF was combined with 3-point Dixon water-fat separation
and spiral blurring correction based on conjugate phase reconstruction. The
approach was assessed in phantom experiments and compared to Cartesian
reference measurements, namely inversion recovery (IR), multi-echo spin echo
(MESE) and Cartesian MRF, by normalized root mean square error (NRMSE) and
standard deviation (STD) calculations. Feasibility is further demonstrated
in-vivo for quantitative breast measurements of 6 healthy female volunteers,
age range 24-31 years.
RESULTS: In the phantom experiment, the blurring correction reduced the NRMSE
per phantom vial on average from 16% to 8% for T1 and from 18% to 11% for T2
when comparing spiral MRF to IR/MESE sequences. When comparing to Cartesian
MRF, the NRMSE reduced from 15% to 8% for T1 and from 12% to 7% for T2.
Furthermore, STDs decreased. In-vivo, the blurring correction removed fat bias
on T1/T2 from a rim of about 7-8 mm width adjacent to fatty structures.
CONCLUSION: The blurring correction for spiral MRF yields improved
quantitative maps in the presence of water and fat. PURPOSE: Magnetic Resonance Fingerprinting (MRF) with spiral readout enables rapid quantification of tissue relaxation times. However, it is prone to blurring due to off-resonance effects. Hence, fat blurring into adjacent regions might prevent identification of small tumors by their quantitative T1 and T2 values. This study aims to correct for the blurring artifacts, thereby enabling fast quantitative mapping in the female breast. METHODS: The impact of fat blurring on spiral MRF results was first assessed by simulations. Then, MRF was combined with 3-point Dixon water-fat separation and spiral blurring correction based on conjugate phase reconstruction. The approach was assessed in phantom experiments and compared to Cartesian reference measurements, namely inversion recovery (IR), multi-echo spin echo (MESE) and Cartesian MRF, by normalized root mean square error (NRMSE) and standard deviation (STD) calculations. Feasibility is further demonstrated in-vivo for quantitative breast measurements of 6 healthy female volunteers, age range 24-31 years. RESULTS: In the phantom experiment, the blurring correction reduced the NRMSE per phantom vial on average from 16% to 8% for T1 and from 18% to 11% for T2 when comparing spiral MRF to IR/MESE sequences. When comparing to Cartesian MRF, the NRMSE reduced from 15% to 8% for T1 and from 12% to 7% for T2. Furthermore, STDs decreased. In-vivo, the blurring correction removed fat bias on T1/T2 from a rim of about 7-8 mm width adjacent to fatty structures. CONCLUSION: The blurring correction for spiral MRF yields improved quantitative maps in the presence of water and fat. |
| Author | Kuhl, Christiane Elevelt, Aaldert Koken, Peter Gross-Weege, Nicolas Nolte, Teresa Doneva, Mariya Schulz, Volkmar Truhn, Daniel |
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| BackLink | https://doi.org/10.48550/arXiv.1905.03558$$DView paper in arXiv https://doi.org/10.1002/mrm.27994$$DView published paper (Access to full text may be restricted) |
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| Snippet | PURPOSE: Magnetic Resonance Fingerprinting (MRF) with spiral readout enables rapid quantification of tissue relaxation times. However, it is prone to blurring... J. Magn Reson Med 2020; 83(4):1192-1207 PURPOSE: Magnetic Resonance Fingerprinting (MRF) with spiral readout enables rapid quantification of tissue relaxation... |
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| SubjectTerms | Blurring Breast Cartesian coordinates Fingerprinting Magnetic resonance Mapping Physics - Medical Physics Separation |
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| Title | Spiral Blurring Correction with Water-Fat Separation for Magnetic Resonance Fingerprinting in the Breast |
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