足月龄早产儿的合成 MRI：诊断图像质量评估和自动脑容量分割。

Synthetic MRI of Preterm Infants at Term-Equivalent Age: Evaluation of Diagnostic Image Quality and Automated Brain Volume Segmentation.

机构信息

From the Department of Radiology (T.V., M.N., N.W., G.-J.A., S.R., J.d.M., H.R.), Vrije Universiteit Brussels, Universitair Ziekenhuis Brussels, Brussels, Belgium

From the Department of Radiology (T.V., M.N., N.W., G.-J.A., S.R., J.d.M., H.R.), Vrije Universiteit Brussels, Universitair Ziekenhuis Brussels, Brussels, Belgium.

出版信息

AJNR Am J Neuroradiol. 2020 May;41(5):882-888. doi: 10.3174/ajnr.A6533. Epub 2020 Apr 16.

DOI:10.3174/ajnr.A6533

PMID:32299803

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7228170/

Abstract

BACKGROUND AND PURPOSE

Neonatal MR imaging brain volume measurements can be used as biomarkers for long-term neurodevelopmental outcome, but quantitative volumetric MR imaging data are not usually available during routine radiologic evaluation. In the current study, the feasibility of automated quantitative brain volumetry and image reconstruction via synthetic MR imaging in very preterm infants was investigated.

MATERIALS AND METHODS

Conventional and synthetic T1WIs and T2WIs from 111 very preterm infants were acquired at term-equivalent age. Overall image quality and artifacts of the conventional and synthetic images were rated on a 4-point scale. Legibility of anatomic structures and lesion conspicuity were assessed on a binary scale. Synthetic MR volumetry was compared with that generated via MANTiS, which is a neonatal tissue segmentation toolbox based on T2WI.

RESULTS

Image quality was good or excellent for most conventional and synthetic images. The 2 methods did not differ significantly regarding image quality or diagnostic performance for focal and cystic WM lesions. Dice similarity coefficients had excellent overlap for intracranial volume (97.3%) and brain parenchymal volume (94.3%), and moderate overlap for CSF (75.6%). Bland-Altman plots demonstrated a small systematic bias in all cases (1.7%-5.9%) CONCLUSIONS: Synthetic T1WI and T2WI sequences may complement or replace conventional images in neonatal imaging, and robust synthetic volumetric results are accessible from a clinical workstation in less than 1 minute. Via the above-described methods, volume assessments could be routinely used in daily clinical practice.

摘要

背景与目的

新生儿磁共振成像（MR）脑容积测量可作为长期神经发育结局的生物标志物，但在常规影像学评估中通常无法获得定量容积 MR 成像数据。本研究旨在探讨通过合成磁共振成像（MRI）对极早产儿进行自动定量脑容积测量和图像重建的可行性。

材料与方法

在胎龄相同时，对 111 例极早产儿进行常规 T1WI 和 T2WI 及合成 T1WI 和 T2WI 扫描。采用 4 分制对常规和合成图像的整体图像质量和伪影进行评分，采用二进制对解剖结构的可读性和病灶的显著性进行评估。将合成 MR 容积测量与基于 T2WI 的新生儿组织分割工具箱 MANTiS 生成的容积测量进行比较。

结果

大多数常规和合成图像的图像质量良好或优秀。两种方法在评估局灶性和囊性白质病变的图像质量和诊断性能方面无显著差异。对于颅内容积（97.3%）和脑实质容积（94.3%），Dice 相似系数有很好的重叠，而对于脑脊液（CSF），重叠度为中等（75.6%）。Bland-Altman 图显示所有病例均存在小的系统偏差（1.7%-5.9%）。

结论

合成 T1WI 和 T2WI 序列可补充或替代新生儿成像中的常规图像，且在不到 1 分钟的时间内即可从临床工作站获得稳健的合成容积结果。通过上述方法，容积评估可在日常临床实践中常规应用。

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