J Korean Soc Magn Reson Med.  2006 Dec;10(2):108-116.

High-resolution Spiral-scan Imaging at 3 Tesla MRI

Affiliations
  • 1VIA-Multimedia Center, Kwangwoon University, Korea. cbahn@kw.ac.kr
  • 2ISOL Technology Co., Korea.

Abstract

PURPOSE
: High-resolution spiral-scan imaging is performed at 3 Tesla MRI system. Since the gradient waveforms for the spiral-scan imaging have lower slopes than those for the Echo Planar Imaging (EPI), they can be implemented with the gradient systems having lower slew rates. The spiral-scan imaging also involves less eddy currents due to the smooth gradient waveforms. The spiral-scan imaging method does not suffer from high specific absorption rate (SAR), which is one of the main obstacles in high field imaging for rf echo-based fast imaging methods such as fast spin echo techniques. Thus, the spiral-scan imaging has a great potential for the high-speed imaging in high magnetic fields. In this paper, we presented various high-resolution images obtained by the spiral-scan methods at 3T MRI system for various applications.
MATERIALS AND METHODS
: High-resolution spiral-scan imaging technique is implemented at 3T whole body MRI system. An efficient and fast higher-order shimming technique is developed to reduce the inhomogeneity, and the single-shot and interleaved spiral-scan imaging methods are developed. Spin-echo and gradient-echo based spiral-scan imaging methods are implemented, and image contrast and signal-tonoise ratio are controlled by the echo time, repetition time, and the rf flip angles.
RESULTS
: Spiral-scan images having various resolutions are obtained at 3T MRI system. Since the absolute magnitude of the inhomogeneity is increasing in higher magnetic fields, higher order shimming to reduce the inhomogeneity becomes more important. A fast shimming technique in which axial, sagittal, and coronal sectional inhomogeneity maps are obtained in one scan is developed, and the shimming method based on the analysis of spherical harmonics of the inhomogeneity map is applied. For phantom and invivo head imaging, image matrix size of about 100x100 is obtained by a single-shot spiral-scan imaging, and a matrix size of 256x256 is obtained by the interleaved spiral-scan imaging with the number of interleaves of from 6 to 12.
CONCLUSION
: High field imaging becomes increasingly important due to the improved signal-to-noise ratio, larger spectral separation, and the higher BOLD-based contrast. The increasing SAR is, however, a limiting factor in high field imaging. Since the spiral-scan imaging has a very low SAR, and lower hardware requirements for the implementation of the technique compared to EPI, it is suitable for a rapid imaging in high fields. In this paper, the spiral-scan imaging with various resolutions from 100x100 to 256x256 by controlling the number of interleaves are developed for the high-speed imaging in high magnetic fields.

Keyword

Spiral-scan imaging; fast magnetic resonance imaging; specific absorption rate (SAR); higher order shimming; slew rate

MeSH Terms

Absorption
Echo-Planar Imaging
Head
Magnetic Fields
Magnetic Resonance Imaging*
Signal-To-Noise Ratio
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