In Vivo Myelin Water Quantification Using Diffusion-Relaxation Correlation MRI: A Comparison of 1D and 2D Methods.
Sebastian EndtMaria EngelEmanuele NaldiRodolfo AsseretoMalwina MolendowskaLars MuellerClaudio Mayrink VerdunCarolin M PirklMarco PalomboDerek K JonesMarion Irene MenzelPublished in: Applied magnetic resonance (2023)
Multidimensional Magnetic Resonance Imaging (MRI) is a versatile tool for microstructure mapping. We use a diffusion weighted inversion recovery spin echo (DW-IR-SE) sequence with spiral readouts at ultra-strong gradients to acquire a rich diffusion-relaxation data set with sensitivity to myelin water. We reconstruct 1D and 2D spectra with a two-step convex optimization approach and investigate a variety of multidimensional MRI methods, including 1D multi-component relaxometry, 1D multi-component diffusometry, 2D relaxation correlation imaging, and 2D diffusion-relaxation correlation spectroscopic imaging (DR-CSI), in terms of their potential to quantify tissue microstructure, including the myelin water fraction (MWF). We observe a distinct spectral peak that we attribute to myelin water in multi-component T1 relaxometry, T1-T2 correlation, T1-D correlation, and T2-D correlation imaging. Due to lower achievable echo times compared to diffusometry, MWF maps from relaxometry have higher quality. Whilst 1D multi-component T1 data allows much faster myelin mapping, 2D approaches could offer unique insights into tissue microstructure and especially myelin diffusion.
Keyphrases
- contrast enhanced
- white matter
- diffusion weighted
- magnetic resonance imaging
- high resolution
- diffusion weighted imaging
- magnetic resonance
- computed tomography
- single molecule
- multiple sclerosis
- electronic health record
- big data
- molecular docking
- quality improvement
- artificial intelligence
- dual energy
- molecular dynamics
- human health