自发性颅内低血压患者行脊柱 MRI 以检测 CSF 漏:鞘内钆对比重 T2 加权脂肪饱和序列无优势。
Spine MRI in Spontaneous Intracranial Hypotension for CSF Leak Detection: Nonsuperiority of Intrathecal Gadolinium to Heavily T2-Weighted Fat-Saturated Sequences.
机构信息
From the University Institute of Diagnostic and Interventional Neuroradiology (T.D., A.W., P.S.B., L.G., G.P., P.J.M., J.K., P.M., J.G., E.I.P.).
Department of Interventional, Pediatric, and Diagnostic Radiology (G.P., J.K.).
出版信息
AJNR Am J Neuroradiol. 2020 Jul;41(7):1309-1315. doi: 10.3174/ajnr.A6592. Epub 2020 Jun 18.
BACKGROUND AND PURPOSE
Spine MR imaging plays a pivotal role in the diagnostic work-up of spontaneous intracranial hypotension. The aim of this study was to compare the diagnostic accuracy of unenhanced spine MR imaging and intrathecal gadolinium-enhanced spine MR imaging for identification and localization of CSF leaks in patients with spontaneous intracranial hypotension.
MATERIALS AND METHODS
A retrospective study of patients with spontaneous intracranial hypotension examined from February 2013 to October 2017 was conducted. Their spine MR imaging was reviewed by 3 blinded readers for the presence of epidural CSF using 3 different sequences (T2WI, 3D T2WI fat-saturated, T1WI gadolinium). In patients with leaks, the presumed level of the leak was reported.
RESULTS
In total, 103 patients with spontaneous intracranial hypotension (63/103 [61%] women; mean age, 50 years) were evaluated. Seventy had a confirmed CSF leak (57/70 [81%] proved intraoperatively), and 33 showed no epidural CSF on multimodal imaging. Intrathecal gadolinium-enhanced spine MR imaging was nonsuperior to unenhanced spine MR imaging for the detection of epidural CSF (= .24 and .97). All MR imaging sequences had a low accuracy for leak localization. In all patients, only 1 leakage point was present, albeit multiple suspicious lesions were reported in all sequences (mean, 5.0).
CONCLUSIONS
Intrathecal gadolinium-enhanced spine MR imaging does not improve the diagnostic accuracy for the detection of epidural CSF. Thus, it lacks a rationale to be included in the routine spontaneous intracranial hypotension work-up. Heavily T2-weighted images with fat saturation provide high accuracy for the detection of an epidural CSF collection. Low accuracy for leak localization is due to an extensive CSF collection spanning several vertebrae (false localizing sign), lack of temporal resolution, and a multiplicity of suspicious lesions, albeit only a single leakage site is present. Thus, dynamic examination is mandatory before targeted treatment is initiated.
背景与目的
脊柱磁共振成像在自发性颅内低血压的诊断中起着关键作用。本研究旨在比较增强和未增强脊柱磁共振成像对自发性颅内低血压患者脑脊液漏的识别和定位的诊断准确性。
材料与方法
对 2013 年 2 月至 2017 年 10 月期间检查的自发性颅内低血压患者进行回顾性研究。3 名盲法阅片者使用 3 种不同序列(T2WI、3D T2WI 脂肪饱和、T1WI 钆增强)对患者的脊柱磁共振成像进行评估,以确定是否存在硬膜外脑脊液。在有漏的患者中,报告了漏出的假定水平。
结果
共评估了 103 例自发性颅内低血压患者(63/103 [61%]为女性;平均年龄为 50 岁)。70 例患者证实存在脑脊液漏(70/70 [81%]经手术证实),33 例患者多模态成像未见硬膜外脑脊液。增强脊柱磁共振成像在检测硬膜外脑脊液方面并不优于未增强脊柱磁共振成像(=0.24 和 0.97)。所有磁共振成像序列对漏口定位的准确性均较低。在所有患者中,尽管在所有序列中都报告了多个可疑病变(平均 5.0 个),但仅存在 1 个漏口。
结论
增强脊柱磁共振成像不能提高检测硬膜外脑脊液的诊断准确性。因此,它缺乏被纳入自发性颅内低血压常规检查的理由。带有脂肪饱和的重 T2 加权图像对硬膜外脑脊液积聚的检测具有很高的准确性。漏口定位准确性较低是由于广泛的脑脊液积聚跨越多个椎体(假定位征象)、缺乏时间分辨率以及多个可疑病变(尽管仅存在单个漏口)所致。因此,在开始靶向治疗之前,必须进行动态检查。
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