Compensation of RF field and receiver coil induced inhomogeneity effects in abdominal MR images by a priori knowledge on the human adipose tissue distribution

Purpose: To reliably compensate bias field effects in abdominal areas to accurately quantify visceral adipose tissue using standard T1‐weighted sequences on MR scanners with up to 3 Tesla (T) field strength. Materials and Methods: Compensation is achieved in two steps: The bias field is first estima...

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Bibliographic Details
Published in:Journal of magnetic resonance imaging 2011-09, Vol.34 (3), p.716-726
Main Authors: Würslin, Christian, Springer, Fabian, Yang, Bin, Schick, Fritz
Format: Article
Language:English
Subjects:
abdomen
Abdomen - anatomy & histology
Adipose Tissue - anatomy & histology
Adipose Tissue - physiology
Adiposity - physiology
Artificial Intelligence
bias field
Equipment Design
Equipment Failure Analysis
Humans
Image Enhancement - instrumentation
Image Enhancement - methods
intensity correction
Magnetic Resonance Imaging - instrumentation
Magnetic Resonance Imaging - methods
Reproducibility of Results
Sensitivity and Specificity
Subtraction Technique - instrumentation
visceral adipose tissue
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Summary:Purpose: To reliably compensate bias field effects in abdominal areas to accurately quantify visceral adipose tissue using standard T1‐weighted sequences on MR scanners with up to 3 Tesla (T) field strength. Materials and Methods: Compensation is achieved in two steps: The bias field is first estimated by picking and fitting sampling points from the subcutaneous adipose tissue, using active contours and a thin plate fitting spline. Then, additional sampling points from visceral adipose tissue compartments are detected by thresholding and the bias field estimation is refined. It was compared with an established method using a simulated abdominal image and real 3T data. Results: At low bias field amplitudes (40–50%), the simulation study showed a good reduction of the mean coefficients of variance (CV) for both approaches (>80%). At higher amplitudes, the CV reduction was significantly higher for our approach (83.6%), compared with LEMS (54.3%). In the real data study, our approach showed reliable reduction of the inhomogeneities, while the LEMS algorithm sometimes even amplified the inhomogeneities. Conclusion: The proposed method enables accurate and reliable segmentation of abdominal adipose tissue using simple thresholding techniques, even in severely corrupted images slices, obtained when using high field strengths and/or phased‐array coils. J. Magn. Reson. Imaging 2011;. © 2011 Wiley‐Liss, Inc.
ISSN:1053-1807
1522-2586
DOI:10.1002/jmri.22682