改进的扩散加权成像中梯度非线性效应校正。

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

机构信息

GE Global Research, Niskayuna, New York 12309, USA.

出版信息

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

DOI:10.1002/jmri.23942

PMID:23172675

Abstract

PURPOSE

To provide an improved correction for gradient nonlinearity (GN) effects in diffusion-weighted imaging (DWI). These effects produce spatially varying apparent diffusion coefficient (ADC), a result that will be significant in large field-of-view imaging, and may be confounded by distortion and concomitant fields related to the DWI acquisition.

MATERIALS AND METHODS

The effect of more accurate gradient field maps on GN correction (GNC) of ADC was evaluated. A simulation compared GN effects in commonly imaged anatomy. A temperature-controlled phantom was imaged at positions 0 cm and 11 cm from isocenter and in two whole-body MRI systems at 1.5T with different patient bore diameters (55 cm and 60 cm). Varying correction methods were applied to determine the errors from spatial variance and interscanner reproducibility.

RESULTS

As compared to conventional fifth-order spherical harmonics, a seventh-order GNC improved ADC accuracy by 1%. The combination of GNC with a dual-spin-echo pulse sequence and a retrospective concomitant field correction reduced ADC error due to spatial variance from 9.5% to 1.8% (55 cm bore) and from 4.2% to 1.8% (60 cm bore). The error in ADC attributed to interscanner reproducibility was reduced from 5.8% to 0.15% (at isocenter) and from 10% to 0.63% (11 cm from isocenter).

CONCLUSION

GNC in DWI improved spatial accuracy and interscanner reproducibility of ADC.

摘要

目的

提供一种改进的扩散加权成像（DWI）中梯度非线性（GN）效应校正方法。这些效应会产生空间变化的表观扩散系数（ADC），在大视野成像中这将是一个重要的结果，并且可能会受到与 DWI 采集相关的失真和伴随场的影响。

材料与方法

评估了更准确的梯度场图对 ADC 的 GN 校正（GNC）的影响。模拟比较了在常见成像解剖结构中的 GN 效应。在温度控制的体模中，在距等中心 0 cm 和 11 cm 的位置以及在两个具有不同患者孔径（55 cm 和 60 cm）的 1.5T 全身 MRI 系统中进行成像。应用不同的校正方法来确定空间变化和跨扫描仪重现性引起的误差。

结果

与传统的五阶球谐函数相比，七阶 GNC 提高了 ADC 精度 1%。GNC 与双回波脉冲序列和回顾性伴随场校正相结合，将由于空间变化引起的 ADC 误差从 9.5%降低至 1.8%（55 cm 孔径）和从 4.2%降低至 1.8%（60 cm 孔径）。由于扫描仪之间的重现性引起的 ADC 误差从 5.8%降低至 0.15%（等中心）和从 10%降低至 0.63%（距等中心 11 cm）。

结论

DWI 中的 GNC 提高了 ADC 的空间准确性和跨扫描仪的重现性。

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改进的扩散加权成像中梯度非线性效应校正。

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

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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