Literature DB >> 23794533

Analysis and correction of gradient nonlinearity bias in apparent diffusion coefficient measurements.

Dariya I Malyarenko1, Brian D Ross, Thomas L Chenevert.   

Abstract

PURPOSE: Gradient nonlinearity of MRI systems leads to spatially dependent b-values and consequently high non-uniformity errors (10-20%) in apparent diffusion coefficient (ADC) measurements over clinically relevant field-of-views. This work seeks practical correction procedure that effectively reduces observed ADC bias for media of arbitrary anisotropy in the fewest measurements.
METHODS: All-inclusive bias analysis considers spatial and time-domain cross-terms for diffusion and imaging gradients. The proposed correction is based on rotation of the gradient nonlinearity tensor into the diffusion gradient frame where spatial bias of b-matrix can be approximated by its Euclidean norm. Correction efficiency of the proposed procedure is numerically evaluated for a range of model diffusion tensor anisotropies and orientations.
RESULTS: Spatial dependence of nonlinearity correction terms accounts for the bulk (75-95%) of ADC bias for FA = 0.3-0.9. Residual ADC non-uniformity errors are amplified for anisotropic diffusion. This approximation obviates need for full diffusion tensor measurement and diagonalization to derive a corrected ADC. Practical scenarios are outlined for implementation of the correction on clinical MRI systems.
CONCLUSIONS: The proposed simplified correction algorithm appears sufficient to control ADC non-uniformity errors in clinical studies using three orthogonal diffusion measurements. The most efficient reduction of ADC bias for anisotropic medium is achieved with non-lab-based diffusion gradients.
Copyright © 2013 Wiley Periodicals, Inc.

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Year:  2014        PMID: 23794533      PMCID: PMC3823647          DOI: 10.1002/mrm.24773

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


  33 in total

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2.  Multicenter stability of diffusion tensor imaging measures: a European clinical and physical phantom study.

Authors:  Stefan J Teipel; Sigrid Reuter; Bram Stieltjes; Julio Acosta-Cabronero; Ulrike Ernemann; Andreas Fellgiebel; Massimo Filippi; Giovanni Frisoni; Frank Hentschel; Frank Jessen; Stefan Klöppel; Thomas Meindl; Petra J W Pouwels; Karl-Heinz Hauenstein; Harald Hampel
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3.  How background noise shifts eigenvectors and increases eigenvalues in DTI.

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4.  Diffusion-weighted imaging of the prostate and rectal wall: comparison of biexponential and monoexponential modelled diffusion and associated perfusion coefficients.

Authors:  S F Riches; K Hawtin; E M Charles-Edwards; N M de Souza
Journal:  NMR Biomed       Date:  2009-04       Impact factor: 4.044

5.  Dependence of the fractional anisotropy in cervical spine from the number of diffusion gradients, repeated acquisition and voxel size.

Authors:  Xenja Santarelli; Gabriele Garbin; Maja Ukmar; Renata Longo
Journal:  Magn Reson Imaging       Date:  2009-07-03       Impact factor: 2.546

6.  Imaging parameter effects in apparent diffusion coefficient determination of magnetic resonance imaging.

Authors:  Akio Ogura; Katsumi Hayakawa; Tosiaki Miyati; Fumie Maeda
Journal:  Eur J Radiol       Date:  2009-07-31       Impact factor: 3.528

7.  Improved correction for gradient nonlinearity effects in diffusion-weighted imaging.

Authors:  Ek T Tan; Luca Marinelli; Zachary W Slavens; Kevin F King; Christopher J Hardy
Journal:  J Magn Reson Imaging       Date:  2012-11-21       Impact factor: 4.813

8.  Diffusion coefficient measurement using a temperature-controlled fluid for quality control in multicenter studies.

Authors:  Thomas L Chenevert; Craig J Galbán; Marko K Ivancevic; Susan E Rohrer; Frank J Londy; Thomas C Kwee; Charles R Meyer; Timothy D Johnson; Alnawaz Rehemtulla; Brian D Ross
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9.  Magnet field profiling: analysis and correcting coil design.

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Journal:  IEEE Trans Med Imaging       Date:  2011-03       Impact factor: 10.048
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  26 in total

1.  Practical estimate of gradient nonlinearity for implementation of apparent diffusion coefficient bias correction.

Authors:  Dariya I Malkyarenko; Thomas L Chenevert
Journal:  J Magn Reson Imaging       Date:  2014-12       Impact factor: 4.813

2.  Phantom-based field maps for gradient nonlinearity correction in diffusion imaging.

Authors:  Baxter P Rogers; Justin Blaber; Allen T Newton; Colin B Hansen; E Brian Welch; Adam W Anderson; Jeffrey J Luci; Carlo Pierpaoli; Bennett A Landman
Journal:  Proc SPIE Int Soc Opt Eng       Date:  2018-03

3.  Stability of Gradient Field Corrections for Quantitative Diffusion MRI.

Authors:  Baxter P Rogers; Justin Blaber; E Brian Welch; Zhaohua Ding; Adam W Anderson; Bennett A Landman
Journal:  Proc SPIE Int Soc Opt Eng       Date:  2017-03-09

4.  Distortion-free imaging: A double encoding method (DIADEM) combined with multiband imaging for rapid distortion-free high-resolution diffusion imaging on a compact 3T with high-performance gradients.

Authors:  Myung-Ho In; Ek Tsoon Tan; Joshua D Trzasko; Yunhong Shu; Daehun Kang; Uten Yarach; Shengzhen Tao; Erin M Gray; John Huston; Matt A Bernstein
Journal:  J Magn Reson Imaging       Date:  2019-05-20       Impact factor: 4.813

5.  Gradient nonlinearity correction to improve apparent diffusion coefficient accuracy and standardization in the american college of radiology imaging network 6698 breast cancer trial.

Authors:  David C Newitt; Ek T Tan; Lisa J Wilmes; Thomas L Chenevert; John Kornak; Luca Marinelli; Nola Hylton
Journal:  J Magn Reson Imaging       Date:  2015-03-11       Impact factor: 4.813

6.  Demonstration of nonlinearity bias in the measurement of the apparent diffusion coefficient in multicenter trials.

Authors:  Dariya I Malyarenko; David Newitt; Lisa J Wilmes; Alina Tudorica; Karl G Helmer; Lori R Arlinghaus; Michael A Jacobs; Guido Jajamovich; Bachir Taouli; Thomas E Yankeelov; Wei Huang; Thomas L Chenevert
Journal:  Magn Reson Med       Date:  2015-05-02       Impact factor: 4.668

7.  Pediatric brain tumor consortium multisite assessment of apparent diffusion coefficient z-axis variation assessed with an ice-water phantom.

Authors:  Robert V Mulkern; Kelsey I Ricci; Sridhar Vajapeyam; Thomas L Chenevert; Dariya I Malyarenko; Mehmet Kocak; Tina Young Poussaint
Journal:  Acad Radiol       Date:  2014-11-27       Impact factor: 3.173

8.  Image registration for quantitative parametric response mapping of cancer treatment response.

Authors:  Jennifer L Boes; Benjamin A Hoff; Nola Hylton; Martin D Pickles; Lindsay W Turnbull; Anne F Schott; Alnawaz Rehemtulla; Ryan Chamberlain; Benjamin Lemasson; Thomas L Chenevert; Craig J Galbán; Charles R Meyer; Brian D Ross
Journal:  Transl Oncol       Date:  2014-02-01       Impact factor: 4.243

9.  Improving apparent diffusion coefficient accuracy on a compact 3T MRI scanner using gradient nonlinearity correction.

Authors:  Ashley T Tao; Yunhong Shu; Ek T Tan; Joshua D Trzasko; Shengzhen Tao; Robert D Reid; Paul T Weavers; John Huston; Matt A Bernstein
Journal:  J Magn Reson Imaging       Date:  2018-09-26       Impact factor: 4.813

10.  Retrospective Correction of ADC for Gradient Nonlinearity Errors in Multicenter Breast DWI Trials: ACRIN6698 Multiplatform Feasibility Study.

Authors:  Dariya I Malyarenko; David C Newitt; Ghoncheh Amouzandeh; Lisa J Wilmes; Ek T Tan; Luca Marinelli; Ajit Devaraj; Johannes M Peeters; Shivraman Giri; Axel Vom Endt; Nola M Hylton; Savannah C Partridge; Thomas L Chenevert
Journal:  Tomography       Date:  2020-06
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