Literature DB >> 15170847

High-resolution fast spin echo imaging of the human brain at 4.7 T: implementation and sequence characteristics.

David L Thomas1, Enrico De Vita, Steven Roberts, Robert Turner, Tarek A Yousry, Roger J Ordidge.   

Abstract

In this work, a number of important issues associated with fast spin echo (FSE) imaging of the human brain at 4.7 T are addressed. It is shown that FSE enables the acquisition of images with high resolution and good tissue contrast throughout the brain at high field strength. By employing an echo spacing (ES) of 22 ms, one can use large flip angle refocusing pulses (162 degrees ) and a low acquisition bandwidth (50 kHz) to maximize the signal-to-noise ratio (SNR). A new method of phase encode (PE) ordering (called "feathering") designed to reduce image artifacts is described, and the contributions of RF (B(1)) inhomogeneity, different echo coherence pathways, and magnetization transfer (MT) to FSE signal intensity and contrast are investigated. B(1) inhomogeneity is measured and its effect is shown to be relatively minor for high-field FSE, due to the self-compensating characteristics of the sequence. Thirty-four slice data sets (slice thickness = 2 mm; in-plane resolution = 0.469 mm; acquisition time = 11 min 20 s) from normal volunteers are presented, which allow visualization of brain anatomy in fine detail. This study demonstrates that high-field FSE produces images of the human brain with high spatial resolution, SNR, and tissue contrast, within currently prescribed power deposition guidelines. Copyright 2004 Wiley-Liss, Inc.

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Year:  2004        PMID: 15170847      PMCID: PMC1831841          DOI: 10.1002/mrm.20106

Source DB:  PubMed          Journal:  Magn Reson Med        ISSN: 0740-3194            Impact factor:   4.668


  27 in total

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6.  Signal-to-noise and contrast in fast spin echo (FSE) and inversion recovery FSE imaging.

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8.  Experience with 7.0 T MRI in Patients with Supratentorial Meningiomas.

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10.  Reducing ghosting due to k-space discontinuities in fast spin echo (FSE) imaging by a new combination of k-space ordering and parallel imaging.

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