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

Malyarenko, Dariya I.; Ross, Brian D.; Chenevert, Thomas L.

doi:10.1002/mrm.24773

Cited by 60 publications

(113 citation statements)

References 37 publications

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“…Also, initiatives from the scientific community and technological improvements are expected to avoid sequences artifacts and systematic errors. Correction of non-linear gradient fields, one of the relevant issues, is the focus of ongoing research [37, 38]. …”

Section: Discussionmentioning

confidence: 99%

How reliable are ADC measurements? A phantom and clinical study of cervical lymph nodes

et al. 2018

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ObjectiveTo assess the reliability of ADC measurements in vitro and in cervical lymph nodes of healthy volunteers.MethodsWe used a GE 1.5 T MRI scanner and a first ice-water phantom according to recommendations released by the Quantitative Imaging Biomarker Alliance (QIBA) for assessing ADC against reference values. We analysed the target size effect by using a second phantom made of six inserted spheres with diameters ranging from 10 to 37 mm. Thirteen healthy volunteers were also scanned to assess the inter- and intra-observer reproducibility of volumetric ADC measurements of cervical lymph nodes.ResultsOn the ice-water phantom, the error in ADC measurements was less than 4.3 %. The spatial bias due to the non-linearity of gradient fields was found to be 24 % at 8 cm from the isocentre. ADC measure reliability decreased when addressing small targets due to partial volume effects (up to 12.8 %). The mean ADC value of cervical lymph nodes was 0.87.10-3 ± 0.12.10-3 mm2/s with a good intra-observer reliability. Inter-observer reproducibility featured a bias of -5.5 % due to segmentation issues.ConclusionADC is a potentially important imaging biomarker in oncology; however, variability issues preclude its broader adoption. Reliable use of ADC requires technical advances and systematic quality control.Key Points• ADC is a promising quantitative imaging biomarker.• ADC has a fair inter-reader variability and good intra-reader variability.• Partial volume effect, post-processing software and non-linearity of scanners are limiting factors.• No threshold values for detecting cervical lymph node malignancy can be drawn.Electronic supplementary materialThe online version of this article (10.1007/s00330-017-5265-2) contains supplementary material, which is available to authorized users.

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Section: Discussionmentioning

confidence: 99%

How reliable are ADC measurements? A phantom and clinical study of cervical lymph nodes

et al. 2018

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“…The main source of observed z-dependent ADC is believed to be gradient nonlinearity wherein the local gradient strength varies spatially, thereby creating a spatially-dependent bias in measurements. [10-12] If characterized for any given scanner, the coefficients of the quadratic polynomial could be used to make small z-dependent corrections to tumor ADC values, eliminating changes in tumor location along z as a source of error in longitudinal studies designed to gauge treatment response.…”

Section: Discussionmentioning

confidence: 99%

Pediatric Brain Tumor Consortium Multisite Assessment of Apparent Diffusion Coefficient z-Axis Variation Assessed with an Ice–Water Phantom

et al. 2015

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Rationale and Objectives MR diffusion imaging, can characterize physiologic characteristics of pediatric brain tumors used to assess therapy response. The purpose of this study was to assess the variability of the apparent diffusion coefficient (ADC) along z-axis, of scanners in the multicenter Pediatric Brain Tumor Consortium (PBTC). Materials and Methods Ice water diffusion phantoms for each PBTC site were distributed with a specific diffusion imaging protocol. The phantom was scanned four successive times to a) confirm water in the tube reached thermal equilibrium and b) allow for assessment of intra-exam ADC repeatability. ADC profiles across slice positions for each vendor and institution combination were characterized using linear regression modelling with a quadratic fit. Results 11 sites collected data with a high degree of compliance to the diffusion protocol for each scanner. The mean ADC value at slice position zero for vendor A was 1.123 ×10-3 mm (millimeter)2/s (second), vendor B was 1.0964 × 10-3 mm2/s, and vendor C was 1.110 × 10-3 mm2/s. The percent coefficient of variation across all sites was 0.309 % (sd=0.322). The ADC values conformed well to a second order polynomial along the z-axis, (i.e., following a linear model pattern with quadratic fit) for vendor-institution combinations and across vendor-institution combinations as shown in the longitudinal model. Conclusion Assessment of the variability of diffusion metrics is essential for establishing the validity of using these quantitative metrics in multicenter trials. The low variability in ADC values across vendors and institutions and validates the use of ADC as a quantitative tumor marker in pediatric multicenter trials.

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“…(Chenevert, Galban et al 2011) This same phantom was applied to characterize and correct for ADC bias from gradient nonlinearity affecting off-center measurements on clinical scanners, thereby reducing off-center ADC reproducibility towards bore-center values. (Malyarenko, Ross et al 2013) Broad scale incorporation of the ice-water phantom and gradient non-linearity correction appear likely to form a basis for standardization. (Newitt, Tan et al 2015) Refinements to the methods for specific clinical sites have also been achieved.…”

Section: Magnetic Resonance Imagingmentioning

confidence: 99%

Quantitative Imaging in Radiation Oncology: An Emerging Science and Clinical Service

Jaffray

Chung

Coolens

et al. 2015

Seminars in Radiation Oncology

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

Cited by 60 publications

References 37 publications

How reliable are ADC measurements? A phantom and clinical study of cervical lymph nodes

How reliable are ADC measurements? A phantom and clinical study of cervical lymph nodes

Pediatric Brain Tumor Consortium Multisite Assessment of Apparent Diffusion Coefficient z-Axis Variation Assessed with an Ice–Water Phantom

Quantitative Imaging in Radiation Oncology: An Emerging Science and Clinical Service

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