评估组织对比和检测婴儿脑白质损伤：合成敏感相位反转恢复的对比研究。

Evaluating Tissue Contrast and Detecting White Matter Injury in the Infant Brain: A Comparison Study of Synthetic Phase-Sensitive Inversion Recovery.

机构信息

From the Department of Radiology (D.Y.K., W.S.J., J.W.C., H.G.K.).

Biomedical Informatics (J.C.), Ajou University School of Medicine, Suwon, Republic of Korea.

出版信息

AJNR Am J Neuroradiol. 2019 Aug;40(8):1406-1412. doi: 10.3174/ajnr.A6135. Epub 2019 Jul 25.

DOI:10.3174/ajnr.A6135

PMID:31345940

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7048495/

Abstract

BACKGROUND AND PURPOSE

Synthetic MR imaging enables the acquisition of phase-sensitive inversion recovery images. The aim of this study was to compare the image quality of synthetic phase-sensitive inversion recovery with that of other sequences in infants.

MATERIALS AND METHODS

Brain MR imaging with 3D T1-weighted fast-spoiled gradient recalled, synthetic T1WI, and synthetic phase-sensitive inversion recovery of 91 infants was compared. Contrast between unmyelinated WM and myelinated WM and between unmyelinated WM and cortical GM was calculated. Qualitative evaluation of image quality and myelination degree was performed. In infants with punctate white matter injuries, the number of lesions was compared.

RESULTS

The contrast between unmyelinated WM and myelinated WM was higher in synthetic phase-sensitive inversion recovery compared with fast-spoiled gradient recalled or synthetic T1WI ( < .001). Compared with synthetic T1WI, synthetic phase-sensitive inversion recovery showed higher gray-white matter differentiation ( < .001) and myelination degree in the cerebellar peduncle ( < .001). The number of detected punctate white matter injuries decreased with synthetic phase-sensitive inversion recovery compared with fast-spoiled gradient recalled sequences (1.2 ± 3.2 versus 3.4 ± 3.6, = .001).

CONCLUSIONS

Synthetic phase-sensitive inversion recovery has the potential to improve tissue contrast and image quality in the brain MR imaging of infants. However, we have to be aware that synthetic phase-sensitive inversion recovery has limited value when assessing punctate white matter injuries compared with 3D fast-spoiled gradient recalled imaging.

摘要

背景与目的

合成磁共振成像能够采集相位敏感反转恢复图像。本研究旨在比较合成相位敏感反转恢复与其他序列在婴儿中的图像质量。

材料与方法

对 91 例婴儿的脑磁共振成像进行了 3D T1 加权快速扰相梯度回波、合成 T1WI 和合成相位敏感反转恢复比较。计算了未髓鞘化 WM 与髓鞘化 WM 以及未髓鞘化 WM 与皮质 GM 之间的对比度。对图像质量和髓鞘化程度进行了定性评估。在点状白质损伤的婴儿中，比较了病变的数量。

结果

与快速扰相梯度回波或合成 T1WI 相比，合成相位敏感反转恢复的未髓鞘化 WM 与髓鞘化 WM 之间的对比度更高（<0.001）。与合成 T1WI 相比，合成相位敏感反转恢复显示出更高的灰白质分化（<0.001）和小脑脚的髓鞘化程度（<0.001）。与快速扰相梯度回波序列相比，合成相位敏感反转恢复检测到的点状白质损伤数量减少（1.2±3.2 与 3.4±3.6，=0.001）。

结论

合成相位敏感反转恢复有可能改善婴儿脑磁共振成像中的组织对比度和图像质量。然而，当评估点状白质损伤时，与 3D 快速扰相梯度回波成像相比，我们必须意识到合成相位敏感反转恢复的价值有限。

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