MRI of “diffusion” in the human brain: New results using a modified CE‐FAST sequence
- 1 March 1989
- journal article
- research article
- Published by Wiley in Magnetic Resonance in Medicine
- Vol. 9 (3) , 423-429
- https://doi.org/10.1002/mrm.1910090316
Abstract
“Diffusion-weighted” MRI in the normal human brain and in a patient with a cerebral metastasis is demonstrated. The method employed was a modified CE-FAST sequence with imaging times of only 6-10 s using a conventional 1.5-T whole-body MRI system (Siemens Magnetom). As with previous phantom and animal studies, the use of strong gradients together with macroscopic motions in vivo causes unavoidable artifacts in diffusion-weighted images of the human brain. While these artifacts are shown to be considerably reduced by averaging of 8-16 images, the resulting diffusion contrast is compromised by unknown signal losses due to motion. © 1989 Academic press, Inc.This publication has 10 references indexed in Scilit:
- Separation of diffusion and perfusion in intravoxel incoherent motion MR imaging.Radiology, 1988
- The application of steady-state free precession in rapid 2DFT NMR imaging: FAST and CE-FAST sequencesMagnetic Resonance Imaging, 1988
- Intravoxel incoherent motion imaging using steady‐state free precessionMagnetic Resonance in Medicine, 1988
- NMR imaging of restricted diffusionBerichte der Bunsengesellschaft für physikalische Chemie, 1987
- Motion Artifact Suppression Technique (MAST) for MR ImagingJournal of Computer Assisted Tomography, 1987
- Rapid Fourier imaging using steady‐state free precessionMagnetic Resonance in Medicine, 1987
- The application of steady‐state free precession to the study of very slow fluid flowMagnetic Resonance in Medicine, 1986
- Self-diffusion NMR imaging using stimulated echoesJournal of Magnetic Resonance (1969), 1985
- Use of the Stimulated Echo in NMR Diffusion StudiesThe Journal of Chemical Physics, 1970
- Spin Diffusion Measurements: Spin Echoes in the Presence of a Time-Dependent Field GradientThe Journal of Chemical Physics, 1965