使用 MRI 评估多发性硬化症脑萎缩测量的可靠性：对 6 个免费横断面分析软件包的评估。

Reliability of brain atrophy measurements in multiple sclerosis using MRI: an assessment of six freely available software packages for cross-sectional analyses.

机构信息

MS Center Amsterdam, Radiology and Nuclear Medicine, Vrije Universiteit Amsterdam, Amsterdam Neuroscience, Amsterdam UMC Location VUmc, Amsterdam, The Netherlands.

Neuroscience Research Center, Institute of Neuropharmacology, Kerman University of Medical Sciences, Kerman, Iran.

出版信息

Neuroradiology. 2023 Oct;65(10):1459-1472. doi: 10.1007/s00234-023-03189-8. Epub 2023 Aug 1.

DOI:10.1007/s00234-023-03189-8

PMID:37526657

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10497452/

Abstract

PURPOSE

Volume measurement using MRI is important to assess brain atrophy in multiple sclerosis (MS). However, differences between scanners, acquisition protocols, and analysis software introduce unwanted variability of volumes. To quantify theses effects, we compared within-scanner repeatability and between-scanner reproducibility of three different MR scanners for six brain segmentation methods.

METHODS

Twenty-one people with MS underwent scanning and rescanning on three 3 T MR scanners (GE MR750, Philips Ingenuity, Toshiba Vantage Titan) to obtain 3D T1-weighted images. FreeSurfer, FSL, SAMSEG, FastSurfer, CAT-12, and SynthSeg were used to quantify brain, white matter and (deep) gray matter volumes both from lesion-filled and non-lesion-filled 3D T1-weighted images. We used intra-class correlation coefficient (ICC) to quantify agreement; repeated-measures ANOVA to analyze systematic differences; and variance component analysis to quantify the standard error of measurement (SEM) and smallest detectable change (SDC).

RESULTS

For all six software, both between-scanner agreement (ICCs ranging 0.4-1) and within-scanner agreement (ICC range: 0.6-1) were typically good, and good to excellent (ICC > 0.7) for large structures. No clear differences were found between filled and non-filled images. However, gray and white matter volumes did differ systematically between scanners for all software (p < 0.05). Variance component analysis yielded within-scanner SDC ranging from 1.02% (SAMSEG, whole-brain) to 14.55% (FreeSurfer, CSF); and between-scanner SDC ranging from 4.83% (SynthSeg, thalamus) to 29.25% (CAT12, thalamus).

CONCLUSION

Volume measurements of brain, GM and WM showed high repeatability, and high reproducibility despite substantial differences between scanners. Smallest detectable change was high, especially between different scanners, which hampers the clinical implementation of atrophy measurements.

摘要

目的

磁共振成像（MRI）体积测量对于评估多发性硬化症（MS）中的脑萎缩非常重要。然而，扫描仪之间、采集方案之间和分析软件之间的差异会导致体积产生不必要的变化。为了量化这些影响，我们比较了三种不同 MRI 扫描仪的六种脑分割方法的内部扫描仪可重复性和外部扫描仪可重复性。

方法

21 名 MS 患者在三台 3T 磁共振扫描仪（GE MR750、Philips Ingenuity、Toshiba Vantage Titan）上进行扫描和重新扫描，以获得 3D T1 加权图像。FreeSurfer、FSL、SAMSEG、FastSurfer、CAT-12 和 SynthSeg 用于从充满病变的和非充满病变的 3D T1 加权图像中量化脑、白质和（深部）灰质体积。我们使用组内相关系数（ICC）来量化一致性；重复测量方差分析来分析系统差异；方差分量分析来量化测量的标准误差（SEM）和最小可检测变化（SDC）。

结果

对于所有六种软件，在填充和非填充图像之间，体积测量结果均无明显差异。但是，所有软件的灰质和白质体积在扫描仪之间都存在系统差异（p<0.05）。所有软件的扫描仪间 SDC 范围为 4.83%（SynthSeg，thalamus）至 29.25%（CAT12，thalamus）；扫描仪内 SDC 范围为 1.02%（SAMSEG，whole-brain）至 14.55%（FreeSurfer，CSF）。

结论

尽管扫描仪之间存在很大差异，但脑、GM 和 WM 的体积测量结果具有很高的可重复性和可再现性。最小可检测变化很高，特别是在不同的扫描仪之间，这限制了萎缩测量的临床应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/730e/10497452/e78ea4a88186/234_2023_3189_Fig1_HTML.jpg

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使用 MRI 评估多发性硬化症脑萎缩测量的可靠性：对 6 个免费横断面分析软件包的评估。

Reliability of brain atrophy measurements in multiple sclerosis using MRI: an assessment of six freely available software packages for cross-sectional analyses.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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