J Korean Soc Magn Reson Med.  2008 Dec;12(2):123-130.

Study of Motion Effects in Cartesian and Spiral Parallel MRI Using Computer Simulation

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

Abstract

PURPOSE
Motion effects in parallel magnetic resonance imaging (MRI) are investigated. Parallel MRI is known to be robust to motion due to its reduced acquisition time. However, if there are some involuntary motions such as heart or respiratory motions involved during the acquisition of the parallel MRI, motion artifacts would be even worse than those in conventional (non-parallel) MRI. In this paper, we defined several types of motions, and their effects in parallel MRI are investigated in comparisons with conventional MRI.
MATERIALS AND METHODS
In order to investigate motion effects in parallel MRI, 5 types of motions are considered. Type-1 and 2 are periodic motions with different amplitudes and periods. Type-3 and 4 are segment-based linear motions, where they are stationary during the segment. Type-5 is a uniform random motion. For the simulation, Cartesian and spiral grid based parallel and non-parallel (conventional) MRI are used.
RESULTS
Based on the motions defined, moving artifacts in the parallel and non-parallel MRI are investigated. From the simulation, non-parallel MRI shows smaller root mean square error (RMSE) values than the parallel MRI for the periodic (type-1 and 2) motions. Parallel MRI shows less motion artifacts for linear (type-3 and 4) motions where motions are reduced with shorter acquisition time. Similar motion artifacts are observed for the random motion (type-5).
CONCLUSION
In this paper, we simulate the motion effects in parallel MRI. Parallel MRI is effective in the reduction of motion artifacts when motion is reduced by the shorter acquisition time. However, conventional MRI shows better image quality than the parallel MRI when fast periodic motions are involved.

Keyword

Parallel MRI; Motion effects; Motion artifact; SENSE; Spiral imaging

MeSH Terms

Artifacts
Computer Simulation
Heart
Magnetic Resonance Imaging
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