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7T MRI 定量颅内动脉瘤容积搏动。

Quantification of Intracranial Aneurysm Volume Pulsation with 7T MRI.

机构信息

From the Department of Neurology and Neurosurgery (R.K., B.S., E.K., Y.M.R., L.R., G.J.E.R., B.H.V.), Brain Center Rudolf Magnus

Department of Radiology (J.J.M.Z., P.R.L., F.V.), Utrecht University, University Medical Center Utrecht, Utrecht, the Netherlands.

出版信息

AJNR Am J Neuroradiol. 2018 Apr;39(4):713-719. doi: 10.3174/ajnr.A5546. Epub 2018 Feb 22.

DOI:10.3174/ajnr.A5546
PMID:29472302
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5896733/
Abstract

BACKGROUND AND PURPOSE

Aneurysm volume pulsation is a potential predictor of intracranial aneurysm rupture. We evaluated whether 7T MR imaging can quantify aneurysm volume pulsation.

MATERIALS AND METHODS

In Stage I of the study, 10 unruptured aneurysms in 9 patients were studied using a high-resolution (0.6-mm, isotropic) 3D gradient-echo sequence with cardiac gating. Semiautomatic segmentation was used to measure aneurysm volume (in cubic millimeters) per cardiac phase. Aneurysm pulsation was defined as the relative increase in volume between the phase with the smallest volume and the phase with the largest volume. The accuracy and precision of the measured volume pulsations were addressed by digital phantom simulations and a repeat image analysis. In Stage II, the imaging protocol was optimized and 9 patients with 9 aneurysms were studied with and without administration of a contrast agent.

RESULTS

The mean aneurysm pulsation in Stage I was 8% ± 7% (range, 2%-27%), with a mean volume change of 15 ± 14 mm (range, 3-51 mm). The mean difference in volume change for the repeat image analysis was 2 ± 6 mm. The artifactual volume pulsations measured with the digital phantom simulations were of the same magnitude as the volume pulsations observed in the patient data, even after protocol optimization in Stage II.

CONCLUSIONS

Volume pulsation quantification with the current imaging protocol on 7T MR imaging is not accurate due to multiple imaging artifacts. Future studies should always include aneurysm-specific accuracy analysis.

摘要

背景与目的

动脉瘤体积搏动是颅内动脉瘤破裂的潜在预测指标。我们评估了 7T MRI 是否可定量测量动脉瘤体积搏动。

材料与方法

在研究的第一阶段,对 9 名患者的 10 个未破裂动脉瘤进行了研究,使用了带心脏门控的高分辨率(0.6mm,各向同性)3D 梯度回波序列。半自动分割用于测量每个心动周期的动脉瘤体积(以立方毫米为单位)。动脉瘤搏动定义为体积最小相位和体积最大相位之间的相对体积增加。通过数字体模模拟和重复图像分析解决了测量体积搏动的准确性和精密度问题。在第二阶段,优化了成像方案,并对 9 名患者的 9 个动脉瘤进行了研究,同时使用和不使用造影剂。

结果

第一阶段平均动脉瘤搏动为 8%±7%(范围,2%-27%),平均体积变化为 15±14mm(范围,3-51mm)。重复图像分析的体积变化平均差异为 2±6mm。即使在第二阶段优化了方案,数字体模模拟中测量的假性体积搏动与患者数据中观察到的体积搏动幅度相同。

结论

由于多种成像伪影的存在,当前 7T MRI 成像方案的体积搏动定量并不准确。未来的研究应始终包括动脉瘤特异性准确性分析。

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