3T 下活体眶内视神经分割的 MRI 采集和分析方案。

MRI acquisition and analysis protocol for in vivo intraorbital optic nerve segmentation at 3T.

机构信息

Nuclear Magnetic Resonance Research Unit, University College London Institute of Neurology, London, United Kingdom.

出版信息

Invest Ophthalmol Vis Sci. 2013 Jun 21;54(6):4235-40. doi: 10.1167/iovs.13-12357.

DOI:10.1167/iovs.13-12357

PMID:23794535

Abstract

PURPOSE

To present a new acquisition and analysis protocol for reliable and reproducible segmentation of the entire intraorbital optic nerve (ION) mean cross-sectional area by means of magnetic resonance imaging (MRI) at 3 tesla (T).

METHODS

Eight healthy volunteers (mean age 31, five were male) gave written informed consent and both of their IONs were imaged individually using a coronal-oblique T2-weighted fast multidynamic image acquisition scheme; the proposed acquisition scheme has its rationale in combining separately acquired volumes and registering them to account for motion-related artifacts commonly associated with longer acquisitions. Mean cross-sectional area of each ION was measured using a semiautomated image analysis protocol that was based on an active surface model previously described and used for spinal cord imaging. Reproducibility was assessed for repeated scans (scan-rescan) and repeated image analysis performance (intraobserver).

RESULTS

Mean and SD values of the left ION cross-sectional area for the eight healthy volunteers were 5.0 (±0.7) mm² and for the right ION were 5.3 (±0.8) mm². Mean scan-rescan coefficient of variation (COV) for the left ION was 4.3% and for the right was 4.4%. Mean intraobserver COV for the left ION was 2.1% and for the right was 1.8%.

CONCLUSIONS

This study presents a new MRI acquisition and analysis protocol for reliable and reproducible in vivo measurement of the entire ION mean cross-sectional area as demonstrated in a pilot study of healthy subjects. The protocol presented here can be used in future studies of the ION in disease state.

摘要

目的

提出一种新的采集和分析方案，通过 3 特斯拉（T）磁共振成像（MRI）可靠且可重复地测量整个眶内视神经（ION）的平均横截面积。

方法

8 名健康志愿者（平均年龄 31 岁，5 名男性）书面同意并分别对其双侧 ION 进行成像，使用冠状斜 T2 加权快速多动态图像采集方案；所提出的采集方案的原理是结合单独采集的体积并对其进行配准，以解决与较长采集时间相关的运动伪影问题。使用基于先前描述并用于脊髓成像的主动表面模型的半自动图像分析方案来测量每个 ION 的平均横截面积。通过重复扫描（扫描-再扫描）和重复图像分析性能（观察者内）来评估可重复性。

结果

8 名健康志愿者左侧 ION 横截面积的平均值和标准差分别为 5.0（±0.7）mm²，右侧 ION 为 5.3（±0.8）mm²。左侧 ION 的平均扫描-再扫描变异系数（COV）为 4.3%，右侧为 4.4%。左侧 ION 的观察者内 COV 平均值为 2.1%，右侧为 1.8%。

结论

本研究提出了一种新的 MRI 采集和分析方案，用于可靠且可重复地测量健康受试者的整个 ION 平均横截面积。这里提出的方案可用于疾病状态下 ION 的未来研究。

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3T 下活体眶内视神经分割的 MRI 采集和分析方案。

MRI acquisition and analysis protocol for in vivo intraorbital optic nerve segmentation at 3T.

机构信息

出版信息

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METHODS

RESULTS

CONCLUSIONS

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结果

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