3T 弥散加权磁共振成像对甲状腺的低失真：初步结果。

3T diffusion-weighted MRI of the thyroid gland with reduced distortion: preliminary results.

机构信息

Department of Radiology, University of Cambridge, Cambridge, UK.

出版信息

Br J Radiol. 2013 Aug;86(1028):20130022. doi: 10.1259/bjr.20130022. Epub 2013 Jun 14.

DOI:10.1259/bjr.20130022

PMID:23770539

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3745056/

Abstract

OBJECTIVE

Single-shot diffusion-weighted (DW) echo planar imaging (EPI), which is commonly used for imaging the thyroid, is characterised by severe blurring and distortion. The objectives of this work were: 1, to show that a reduced-field of view (r-FOV) DW EPI technique can improve image quality; and 2, to investigate the effect of different reconstruction strategies on the resulting apparent diffusion coefficients (ADCs).

METHODS

We implemented a single-shot, r-FOV DW EPI technique with a two-dimensional radiofrequency excitation pulse for DW imaging of the thyroid at 3T. Images were reconstructed using root sum of squares (SOS) and an optimal-B1 reconstruction (OBR). Phantom and in vivo experiments were performed to compare r-FOV and conventional full-FOV DW EPI with root SOS and OBR.

RESULTS

r-FOV with OBR substantially improved image quality at 3T. In phantoms, r-FOV gave more accurate ADCs than full-FOV. In vivo r-FOV always gave lower ADC values with respect to the full-FOV technique irrespective of the reconstruction used and whether only two or multiple b-values were used to compute the ADCs.

CONCLUSION

r-FOV DW EPI can reduce image blurring and distortion at the expense of a low signal-to-noise ratio. OBR is a promising reconstruction technique for accurate ADC measurements in lower signal-to-noise ratio regimes, although further studies are needed to characterise its performance.

ADVANCES IN KNOWLEDGE

DW imaging of the thyroid at 3T could potentially benefit from r-FOV acquisition strategies, such as the r-FOV DW EPI technique proposed in this paper.

摘要

目的

单次激发扩散加权（DW）回波平面成像（EPI）常用于甲状腺成像，其特点是严重的模糊和变形。本研究的目的是：1. 证明小视野（r-FOV）DW EPI 技术可改善图像质量；2. 研究不同重建策略对表观扩散系数（ADC）的影响。

方法

我们在 3T 下实现了一种单次激发、r-FOV 的 DW EPI 技术，使用二维射频激发脉冲进行 DW 成像。使用均方根和最佳 B1 重建（OBR）重建图像。进行了体模和体内实验，以比较 r-FOV 和常规全 FOV DW EPI 与根均方根和 OBR。

结果

OBR 的 r-FOV 在 3T 下可显著改善图像质量。在体模中，r-FOV 比全 FOV 更准确地测量 ADC。在体内，无论使用哪种重建方法，以及是否仅使用两个或多个 b 值来计算 ADC，r-FOV 总是比全 FOV 技术得到更低的 ADC 值。

结论

r-FOV DW EPI 可以降低图像模糊和变形，但代价是信噪比降低。OBR 是一种有前途的重建技术，可用于低信噪比下的准确 ADC 测量，尽管需要进一步研究来描述其性能。

知识进步

3T 下甲状腺的 DW 成像可能受益于 r-FOV 采集策略，如本文提出的 r-FOV DW EPI 技术。

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