“流空信号”：T2加权磁共振成像上的流动伪影可作为腹侧1型脊髓脑脊液漏硬脊膜缺损位置的指标。

"Flow Void Sign": Flow Artifact on T2-Weighted MRI Can Be an Indicator of Dural Defect Location in Ventral Type 1 Spinal CSF Leaks.

作者信息

Carlton Jones Lalani, Edelmuth Diogo G L, Butteriss David, Scoffings Daniel J

机构信息

From the Department of Radiology (L.C.J.), Guy's & St Thomas' Hospitals NHS Foundation Trust, London, United Kingdom

Department of Neuroradiology (L.C.J.), King's College Hospital NHS Foundation Trust, London, United Kingdom.

出版信息

AJNR Am J Neuroradiol. 2025 Jan 8;46(1):211-218. doi: 10.3174/ajnr.A8445.

DOI:10.3174/ajnr.A8445

PMID:39134372

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11735451/

Abstract

Patients with spontaneous intracranial hypotension caused by type 1 dural defects typically have an epidural fluid collection on MRI. Still, the location of the defect is not usually readily identifiable on standard MRI sequences and can be at any point along the length of the collection. The most common location for type 1 leaks is ventral and, as such, these are most commonly associated with ventral predominant epidural fluid. Dynamic myelography (either digital subtraction myelography or dynamic CT myelography) is currently the standard of care for localizing the defect. We describe an imaging sign on T2-weighted images caused by CSF-flow egress at the site of the defect that may permit accurate prediction of the site of the CSF leak noninvasively. Importantly, this sign was only observed on 2D T2-weighted and STIR images and not on 3D acquisitions, which notably suppress artifacts. This has implications for optimal MRI spine protocol construction. This sign can be used to limit myelographic range, reduce radiation dose, and increase diagnostic confidence in dural defect location.

摘要

由1型硬脑膜缺损引起的自发性颅内低压患者在MRI上通常有硬膜外积液。然而，在标准MRI序列上通常不容易确定缺损的位置，其可能位于积液长度的任何一点。1型漏口最常见的位置在腹侧，因此，这些最常与以腹侧为主的硬膜外积液相关。动态脊髓造影（数字减影脊髓造影或动态CT脊髓造影）目前是定位缺损的标准治疗方法。我们描述了一种在T2加权图像上由缺损部位脑脊液流出引起的影像征象，该征象可能允许无创地准确预测脑脊液漏的部位。重要的是，这种征象仅在二维T2加权和短TI反转恢复（STIR）图像上观察到，而在三维采集图像上未观察到，三维采集图像显著抑制了伪影。这对优化MRI脊柱检查方案有影响。该征象可用于限制脊髓造影范围、降低辐射剂量并提高对硬脑膜缺损定位的诊断信心。

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