基于相关分割的脑导水管和颈蛛网膜下腔脑脊液流动率的相位对比磁共振研究。

Phase-contrast MR studies of CSF flow rate in the cerebral aqueduct and cervical subarachnoid space with correlation-based segmentation.

机构信息

Department of Medical Physics and Engineering, Division of Medical Technology and Science, Course of Health Science, Graduate School of Medicine, Osaka University, Suita, Osaka, Japan.

出版信息

Magn Reson Med Sci. 2009;8(3):91-100. doi: 10.2463/mrms.8.91.

DOI:10.2463/mrms.8.91

PMID:19783872

Abstract

PURPOSE

Accurate measurement of cerebrospinal fluid (CSF) flow rate elucidates pathophysiological changes in the intracranial environment and is thus clinically useful. We investigated the feasibility of correlation coefficient (CC) analysis for extracting CSF lumens in the cerebral aqueduct and cervical subarachnoid space (SAS) to quantify CSF flow rate and net flow from data acquired by phase-contrast magnetic resonance imaging (PC-MRI).

METHODS

First, in phantom studies on pulsatile flow using a 1.5-tesla MR imaging system, we investigated the accuracy of CC analysis and used a statistical approach to determine an optimal threshold value for extracting the CSF lumens (CC(min)). Second, we performed phantom studies on constant flow with various flow rates to estimate the accuracy of low flow measurement by PC-MRI. Finally, in 6 healthy male volunteers aged 24 +/- 2 years, we estimated the CSF lumen areas, net flows, and peak flow rates in the cerebral aqueduct and cervical SAS using CC analysis with the optimal CC(min) value determined in phantom studies. Three observers analyzed results to compare reproducibility of CC analysis with that of manual segmentation.

RESULTS

The optimal CC(min) value for CC analysis was 0.41 for a matrix measuring 256 x 256. The CSF lumen area extracted by CC analysis was 6.15 +/- 2.52 mm(2), and the net flow in the cerebral aqueduct was 0.74 +/- 0.38 mL/min; in the cervical SAS, lumen area was 135.60 +/- 17.94 mm(2) and net flow, 12.55 +/- 12.67 mL/min. The reproducibility of CSF lumen extraction was better by CC analysis than manual segmentation.

CONCLUSION

CC analysis offers a quick and reproducible method for segmenting CSF lumens and calculating CSF flow rate.

摘要

目的

准确测量脑脊髓液（CSF）流量可以阐明颅内环境的病理生理变化，因此在临床上具有重要意义。我们研究了相关系数（CC）分析在提取脑导水管和颈蛛网膜下腔（SAS）CSF 管腔以量化 CSF 流量和净流量方面的可行性，该方法基于相位对比磁共振成像（PC-MRI）获取的数据。

方法

首先，我们在 1.5T MR 成像系统上进行了脉动流的体模研究，研究了 CC 分析的准确性，并采用统计学方法确定了提取 CSF 管腔的最佳阈值（CC(min)）。其次，我们进行了不同流速的恒速流体模研究，以评估 PC-MRI 对低流速测量的准确性。最后，在 6 名年龄为 24 ± 2 岁的健康男性志愿者中，我们使用 CC 分析确定最佳 CC(min)值，并提取脑导水管和颈 SAS 的 CSF 管腔面积、净流量和峰值流量。三位观察者分析了结果，以比较 CC 分析和手动分割的可重复性。

结果

CC 分析的最佳 CC(min)值为 0.41，矩阵大小为 256x256。CC 分析提取的 CSF 管腔面积为 6.15 ± 2.52mm²，脑导水管的净流量为 0.74 ± 0.38mL/min；在颈 SAS 中，管腔面积为 135.60 ± 17.94mm²，净流量为 12.55 ± 12.67mL/min。CC 分析比手动分割具有更好的 CSF 管腔提取的可重复性。

结论

CC 分析为快速、可重复地分割 CSF 管腔和计算 CSF 流量提供了一种方法。

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基于相关分割的脑导水管和颈蛛网膜下腔脑脊液流动率的相位对比磁共振研究。

Phase-contrast MR studies of CSF flow rate in the cerebral aqueduct and cervical subarachnoid space with correlation-based segmentation.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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