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颅内出血时 CT 血管造影对主要颅内静脉结构充分对比显影的频率:16 层和 64 层 CT 血管造影技术的比较。

Frequency of adequate contrast opacification of the major intracranial venous structures with CT angiography in the setting of intracerebral hemorrhage: comparison of 16- and 64-section CT angiography techniques.

机构信息

Division of Neuroradiology, Massachusetts General Hospital, Harvard Medical School, Boston, USA.

出版信息

AJNR Am J Neuroradiol. 2011 May;32(5):839-45. doi: 10.3174/ajnr.A2388. Epub 2011 Feb 24.

DOI:10.3174/ajnr.A2388
PMID:21349959
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3691005/
Abstract

BACKGROUND AND PURPOSE

DVST is an important cause of ICH because its treatment may require anticoagulation or mechanical thrombectomy. We aimed to determine the frequency of adequate contrast opacification of the major intracranial venous structures in CTAs performed for ICH evaluation, which is an essential factor in excluding DVST as the ICH etiology.

MATERIALS AND METHODS

Two readers retrospectively reviewed CTAs performed in 170 consecutive patients with ICH who presented to our emergency department during a 1-year period to determine by consensus whether qualitatively, contrast opacification in each of the major intracranial venous structures was adequate to exclude DVST. "Adequate contrast opacification" was defined as homogeneous opacification of the venous structure examined. "Inadequate contrast opacification" was defined as either inhomogeneous opacification or nonopacification of the venous structure examined. Delayed scans, if obtained, were reviewed by the same readers blinded to the first-pass CTAs to determine the adequacy of contrast opacification in the venous structures according to the same criteria. In patients who did not have an arterial ICH etiology, the same readers determined if thrombosis of an inadequately opacified intracranial venous structure could have potentially explained the ICH by correlating the presumed venous drainage path of the ICH with the presence of inadequate contrast opacification within the venous structure draining the venous territory of the ICH. CTAs were performed in 16- or 64-section CT scanners with bolus-tracking, scanning from C1 to the vertex. Patients with a final diagnosis of DVST were excluded. We used the Pearson χ(2) test to determine the significance of the differences in the frequency of adequate contrast opacification within each of the major intracranial venous structures in scans obtained using either a 16- or 64-section MDCTA technique.

RESULTS

Fifty-eight patients were evaluated with a 16-section MDCTA technique (34.1%) and 112 with a 64-section technique (65.9%). Adequate contrast opacification within all major noncavernous intracranial venous structures was significantly less frequent in first-pass CTAs performed with a 64-section technique (33%) than in those performed with a 16-section technique (60%, P value < .0001). Delayed scans were obtained in 50 patients, all of which demonstrated adequate contrast opacification in the major noncavernous intracranial venous structures. In 142 patients with supratentorial or cerebellar ICH without an underlying arterial etiology, we found that thrombosis of an inadequately opacified major intracranial venous structure could have potentially explained the ICH in 38 patients (26.8%), most examined with a 64-section technique (86.8%).

CONCLUSIONS

Inadequate contrast opacification of the major intracranial venous structures is common in first-pass CTAs performed for ICH evaluation, particularly if performed with a 64-section technique. Acquiring delayed scans appears necessary to confidently exclude DVST when there is strong clinical or radiologic suspicion.

摘要

背景与目的

DVST 是 ICH 的一个重要病因,因为其治疗可能需要抗凝或机械取栓。我们旨在确定在为评估 ICH 而进行的 CTA 中,主要颅内静脉结构的充分对比显影的频率,这是排除 DVST 作为 ICH 病因的一个重要因素。

材料与方法

两位读者回顾性分析了在 1 年内就诊于我们急诊科的 170 例 ICH 连续患者的 CTA,通过共识确定每种主要颅内静脉结构的对比显影是否定性地充分,足以排除 DVST。“充分对比显影”定义为所检查的静脉结构的均匀显影。“对比显影不充分”定义为显影不均匀或静脉结构未显影。如果获得了延迟扫描,同两位读者将对其进行盲法评估,根据相同标准确定静脉结构中的对比显影是否充分。对于没有动脉 ICH 病因的患者,同两位读者通过将 ICH 的假定静脉引流路径与静脉结构内的不充分对比显影相关联,以确定不充分显影的颅内静脉结构的血栓形成是否可能导致 ICH,静脉结构引流 ICH 的静脉区域。CTA 是在配备有团注追踪的 16 或 64 排 CT 扫描仪上进行的,从 C1 到头顶进行扫描。排除最终诊断为 DVST 的患者。我们使用 Pearson χ(2)检验来确定在使用 16 或 64 排 MDCTA 技术获得的扫描中,每种主要颅内静脉结构内充分对比显影的频率差异的显著性。

结果

58 例患者接受了 16 排 MDCTA 技术评估(34.1%),112 例患者接受了 64 排技术评估(65.9%)。在使用 64 排技术进行的首次通过 CTA 中,所有主要非海绵窦颅内静脉结构的充分对比显影明显少于使用 16 排技术(33%比 60%,P 值<0.0001)。50 例患者获得了延迟扫描,所有患者均显示主要非海绵窦颅内静脉结构的充分对比显影。在 142 例无潜在动脉病因的幕上或小脑 ICH 患者中,我们发现,不充分显影的主要颅内静脉结构的血栓形成可能潜在地解释了 38 例患者(26.8%)的 ICH,其中大多数患者接受了 64 排技术检查(86.8%)。

结论

在为评估 ICH 而进行的首次通过 CTA 中,主要颅内静脉结构的对比显影不充分很常见,尤其是在使用 64 排技术时。当存在强烈的临床或影像学怀疑时,获取延迟扫描似乎对于有信心地排除 DVST 是必要的。

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