Quantitative image quality evaluation of spiral MRI techniques under noisy conditions

Donglai Huo; Kyle A. Salem; David L. Wilson

doi:10.1117/12.535906

4 May 2004 Quantitative image quality evaluation of spiral MRI techniques under noisy conditions

Donglai Huo, Kyle A. Salem, David L. Wilson

Proceedings Volume 5372, Medical Imaging 2004: Image Perception, Observer Performance, and Technology Assessment; (2004) https://doi.org/10.1117/12.535906
Event: Medical Imaging 2004, 2004, San Diego, California, United States

Abstract

Spiral sampling of k-space is a popular technique in fast MRI. Many methods are available for spiral acquisition and reconstruction. We used a Perceptual Difference Model (PDM) to evaluate these selections and to examine the effects of noise. PDM is a human observer model that calculates the visual difference between a “test image” and a “gold standard image.” PDM has been shown to correlate well with human observers in a variety of MR experiments including added noise, increased blurring, keyhole imaging, and spiral imaging. We simulated MR images from six different interleave patterns, seven different sampling levels, three different density compensation methods, and four different reconstruction options under zero noise and three noise levels. By comparing results with and without noise, we can separate noise effects from reconstruction errors. Comparing many different conditions, Voronoi (VOR) plus conventional regridding was good for high SNR data. In low SNR conditions, area density function (ADF) was better. One can also quantitatively compare different acquisition parameters; smaller numbers of interleaves and high number of samples were very desirable when noise was applied, because high frequency sampling was ensured. We conclude that PDM scoring provides an objective, useful tool for the assessment of spiral MR image quality and can greatly aid the design of MR acquisition and signal processing strategies.

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Donglai Huo, Kyle A. Salem, and David L. Wilson "Quantitative image quality evaluation of spiral MRI techniques under noisy conditions", Proc. SPIE 5372, Medical Imaging 2004: Image Perception, Observer Performance, and Technology Assessment, (4 May 2004); https://doi.org/10.1117/12.535906

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KEYWORDS

Magnetic resonance imaging

Signal to noise ratio

Image quality

Magnetism

Medicine

Visual process modeling

Visualization

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