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Keywords:
Neoplasia, Imaging sequences, Diagnostic procedure, MR, Breast
Authors:
R. Rosa, A. M. Sarmento, M. D. L. G. F. R. Orvalho, H. Ferreira; Lisboa/PT
DOI:
10.1594/ecr2014/C-2101
References
[1] Niitsu,
M.
et al.
Fat Suppression Strategies in Enhanced MR Imaging of the Breast: Comparison of SPIR and Water Excitation Sequences.
Journal of Magnetic Resonance Imaging.
2003; 18: 310-314.
[2] Dogan,
B.
et al.
3T Breast MRI using DIxon technique.
Proceedings of the International Conference of the Soc.
Mag.
Reson.
Med 2009; 17: 4243.
[3] Lin,
C.
et al.
Quantitative Evaluations of Fat Suppression Techniques for Breast MRI at 3T.
Proceedings of the International Conference of the Soc.
Mag.
Reson.
Med 2009; 17: 4543.
[4] Delfaut,
E.
et al.
Fat Suppression in MRI Imaging: Techniques and Pitfalls.
Radiographics.
1999; 19: 373-382.
[5] Ma,
J.
Dixon Techniques for Water and Fat Imaging.
Journal of Magnetic Resonance Imaging.
2008; 28: 543-558.
[6] Lee,
Y.S.
et al.
STIR versus SPAIR in Breast Imaging: a Case-Based Discussion.
MAGNETON Flash 2011; 1: 6-7.
[7] Dogan,
B.
et al.
T1-Weighted 3D Dynamic Contrast-Enhanced MRI of the Breast Using a Dual-Echo Dixon Technique at 3T.
Journal of Magnetic Resonance Imaging.
2011; 34: 842-851.
[8] Le-Petross,
H.
et al.
Fast Three-Dimensional Dual Echo Dixon Technique Improves Fat Suppression in Breast MRI.
Journal of Magnetic Resonance Imaging.
2010; 31: 889-894.