Robin A Graaf1, Dennis W J Klomp, Peter R Luijten, Vincent O Boer. 1. Department of Radiology, UMC Utrecht, Utrecht, The Netherlands; Department of Diagnostic Radiology, Magnetic Resonance Research Center, Yale University, New Haven, Connecticut, USA.
Abstract
PURPOSE: Intramolecular zero-quantum-coherences (ZQCs) are intrinsically insensitive toward magnetic field inhomogeneity. This fact is used to quantify and characterize lipid signals in the human breast at 7 T despite the presence of severe magnetic field inhomogeneity caused by water-lipid susceptibility boundaries. METHODS: A novel 3D localized 2D ZQC method is presented. The combination of cardiac/respiratory triggering and post-acquisition navigator echo correction provides high-quality 2D NMR spectra in vivo. RESULTS: The lipid profile of the human breast could be quantified by 2D ZQC NMR in 100% of the subjects despite a wide range of magnetic field homogeneity. With conventional 1D (1)H MRS, the magnetic field homogeneity was only adequate in 60% of the subjects. The results from 2D ZQC NMR and 1D NMR are in good correspondence, both in vitro and in vivo. CONCLUSION: It has been demonstrated that high quality and quantitative 2D ZQC NMR spectra can be acquired from human breast tissue at 7 T. While the simplicity and sensitivity of 1D MRS are preferable when the magnetic field homogeneity is adequate, the 2D ZQC method provides a viable alternative in cases where this requirement cannot be met.
PURPOSE: Intramolecular zero-quantum-coherences (ZQCs) are intrinsically insensitive toward magnetic field inhomogeneity. This fact is used to quantify and characterize lipid signals in the human breast at 7 T despite the presence of severe magnetic field inhomogeneity caused by water-lipid susceptibility boundaries. METHODS: A novel 3D localized 2D ZQC method is presented. The combination of cardiac/respiratory triggering and post-acquisition navigator echo correction provides high-quality 2D NMR spectra in vivo. RESULTS: The lipid profile of the human breast could be quantified by 2D ZQC NMR in 100% of the subjects despite a wide range of magnetic field homogeneity. With conventional 1D (1)H MRS, the magnetic field homogeneity was only adequate in 60% of the subjects. The results from 2D ZQC NMR and 1D NMR are in good correspondence, both in vitro and in vivo. CONCLUSION: It has been demonstrated that high quality and quantitative 2D ZQC NMR spectra can be acquired from human breast tissue at 7 T. While the simplicity and sensitivity of 1D MRS are preferable when the magnetic field homogeneity is adequate, the 2D ZQC method provides a viable alternative in cases where this requirement cannot be met.
Authors: Dianning He; Devkumar Mustafi; Xiaobing Fan; Sully Fernandez; Erica Markiewicz; Marta Zamora; Jeffrey Mueller; Joseph R Sachleben; Matthew J Brady; Suzanne D Conzen; Gregory S Karczmar Journal: PLoS One Date: 2018-01-11 Impact factor: 3.240
Authors: Sigrun Goluch; Roberta Frass-Kriegl; Martin Meyerspeer; Michael Pichler; Jürgen Sieg; Martin Gajdošík; Martin Krššák; Elmar Laistler Journal: Sci Rep Date: 2018-04-18 Impact factor: 4.379