用于表观扩散系数偏差校正实施的梯度非线性的实际估计

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

作者信息

Malkyarenko Dariya I, Chenevert Thomas L

机构信息

University of Michigan Hospitals, 1500 E. Medical Center Dr., UHB2, Ann Arbor, MI, USA.

出版信息

J Magn Reson Imaging. 2014 Dec;40(6):1487-95. doi: 10.1002/jmri.24486.

DOI:10.1002/jmri.24486

PMID:25667948

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4324556/

Abstract

PURPOSE

To describe an efficient procedure to empirically characterize gradient nonlinearity and correct for the corresponding apparent diffusion coefficient (ADC) bias on a clinical magnetic resonance imaging (MRI) scanner.

MATERIALS AND METHODS

Spatial nonlinearity scalars for individual gradient coils along superior and right directions were estimated via diffusion measurements of an isotropicic e-water phantom. Digital nonlinearity model from an independent scanner, described in the literature, was rescaled by system-specific scalars to approximate 3D bias correction maps. Correction efficacy was assessed by comparison to unbiased ADC values measured at isocenter.

RESULTS

Empirically estimated nonlinearity scalars were confirmed by geometric distortion measurements of a regular grid phantom. The applied nonlinearity correction for arbitrarily oriented diffusion gradients reduced ADC bias from 20% down to 2% at clinically relevant offsets both for isotropic and anisotropic media. Identical performance was achieved using either corrected diffusion-weighted imaging (DWI) intensities or corrected b-values for each direction in brain and ice-water. Direction-average trace image correction was adequate only for isotropic medium.

CONCLUSION

Empiric scalar adjustment of an independent gradient nonlinearity model adequately described DWI bias for a clinical scanner. Observed efficiency of implemented ADC bias correction quantitatively agreed with previous theoretical predictions and numerical simulations. The described procedure provides an independent benchmark for nonlinearity bias correction of clinical MRI scanners.

摘要

目的

描述一种有效的方法，用于凭经验表征梯度非线性，并在临床磁共振成像（MRI）扫描仪上校正相应的表观扩散系数（ADC）偏差。

材料与方法

通过对各向同性的电子水模体进行扩散测量，估计沿头侧和右侧方向的各个梯度线圈的空间非线性标量。文献中描述的来自独立扫描仪的数字非线性模型，通过特定系统的标量进行重新缩放，以近似三维偏差校正图。通过与在等中心测量的无偏差ADC值进行比较来评估校正效果。

结果

通过规则网格模体的几何畸变测量，证实了凭经验估计的非线性标量。对于各向同性和各向异性介质，在临床相关偏移量下，对任意取向的扩散梯度应用非线性校正可将ADC偏差从20%降低至2%。在脑和冰水的每个方向上，使用校正后的扩散加权成像（DWI）强度或校正后的b值可实现相同的性能。仅对各向同性介质，方向平均迹线图像校正才足够。

结论

对独立梯度非线性模型进行凭经验的标量调整，足以描述临床扫描仪的DWI偏差。所观察到的实施ADC偏差校正的效率在定量上与先前的理论预测和数值模拟一致。所描述的方法为临床MRI扫描仪的非线性偏差校正提供了一个独立的基准。

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本文引用的文献

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J Magn Reson Imaging. 2013 Aug;38(2):448-53. doi: 10.1002/jmri.23942. Epub 2012 Nov 21.

Multi-system repeatability and reproducibility of apparent diffusion coefficient measurement using an ice-water phantom.采用冰水模体对表观扩散系数测量的多系统重复性和可再现性。

J Magn Reson Imaging. 2013 May;37(5):1238-46. doi: 10.1002/jmri.23825. Epub 2012 Sep 28.

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J Magn Reson Imaging. 2012 Apr;35(4):745-63. doi: 10.1002/jmri.22838.

Diffusion coefficient measurement using a temperature-controlled fluid for quality control in multicenter studies.使用控温流体测量扩散系数，以进行多中心研究中的质量控制。

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