Peri Sylvian裂隙发育性静脉畸形

IF 0.9 4区医学 Q4 CLINICAL NEUROLOGY

Pediatric Neurosurgery Pub Date : 2022-05-02 DOI:10.1159/000524800

Stephanie Serva, Ashley Brones, A. Boylan, C. Wilkinson

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引用次数: 0

摘要

一名9岁的男孩在7月4日的游行中被护送离开时失去知觉，脸朝下摔在人行道上，被送到了科罗拉多州儿童急诊室。随着游行的进行，他感到轻微的头痛和恶心。在去医院的路上，他的体温是华氏105度，他有强直阵挛发作。一周前他头部受了伤。他和兄弟姐妹在蹦床上跳时，他的妹妹落在了他的头上。他没有失去意识，事后也否认头痛或恶心。据报道，他的头部计算机断层扫描(CT)呈阴性。这一次，当他到达急诊室时，他已经醒了，但仍然感到头痛和恶心。在检查中，他有颈部僵硬和步态共济失调，Romberg试验阳性。头部CT(图1A)显示左侧Sylvian裂缝区域有局灶性线状高密度。考虑到他最近两次头部受伤，有蛛网膜下腔出血(SAH)的可能性。后来，在他之前的CT上发现了同样的高密度。随后的磁共振血管造影(MRI/MRA)(图1B)显示高密度为左侧颞叶发育性静脉异常(DVA)。没有动脉瘤。到第二天早上，病人的症状和症状都消失了。人们认为他患了急性高热症。发育性脑静脉畸形是由静脉系统发育不完全引起的先天性畸形。它们可以在高达2.6%的尸检研究中被发现，并且被认为是无害的。它们可能与散发性脑海绵状血管瘤有关。罕见的出血病例已被报道，但通常与海绵体畸形有关。由于DVAs为大脑提供静脉引流，因此在切除海绵状血管瘤时不要损伤它们是很重要的。Sylvian裂隙是创伤后和动脉瘤性SAH的常见部位。有时，在创伤后，尚不清楚SAH是由创伤还是由动脉瘤破裂引起的。然而，正如本报告所示，CT上Sylvian裂缝区域的高密度可能并不代表SAH。在某些情况下，如果考虑进一步成像以寻找SAH的来源，提供者可能会考虑MRI/MRA与CT或导管血管造影相比，因为其他病变在MR成像上可以更好地看到。

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Peri-Sylvian Fissure Developmental Venous Anomaly

A 9-year-old male presented to the Children's Colorado Emergency Department (ED) after losing consciousness and falling face-first onto a sidewalk while being escorted from a 4th of July parade. He had a mild headache and nausea that worsened as the parade progressed. En route to the hospital, his temperature was 105℉ and he had a tonic-clonic seizure. He had had a head injury one week prior. He had been jumping on a trampoline with siblings when his sister landed on his head. There was no loss of consciousness and he denied headache or nausea afterward. Computed tomography (CT) of his head (not shown) had been reportedly negative. By the time he arrived at the ED this time, he was awake but still had a headache and nausea. On examination, he had nuchal rigidity with gait ataxia and positive Romberg testing. Head CT (Fig. 1A) showed a focal linear hyperdensity in the region of the left Sylvian fissure. There was concern for subarachnoid hemorrhage (SAH) given his two recent head injuries. Later, the same hyperdensity was retrospectively noted on his previous CT. Subsequent magnetic resonance imaging with angiography (MRI/MRA) (Fig. 1B) revealed the hyperdensity to be a large left temporal lobe developmental venous anomaly (DVA). There was no aneurysm. By the next morning, the patient's symptoms and findings had all resolved. It was thought that he had suffered acute hyperthermia. Developmental venous anomalies of the brain are congenital abnormalities that arise from incomplete development of the venous system. They can be found in up to 2.6 % of autopsy studies and are thought to be harmless. They can be associated with sporadic cerebral cavernous malformations. Rare cases of hemorrhage have been reported, but usually in association with cavernous malformations. As DVAs provide venous drainage to the brain, it is important not to damage them during resection of cavernous malformations. The Sylvian fissure is a common place for both posttraumatic and aneurysmal SAH. Sometimes, after trauma, it is unclear whether SAH resulted from the trauma or from aneurysmal rupture. As shown in this report, however, hyperdensity in the region of the Sylvian fissure on CT may not represent SAH. In certain circumstances, if further imaging is being contemplated to search for the source of SAH, providers may consider MRI/MRA with contrast versus CT or catheter angiography, as other lesions will be better seen on MR imaging.

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来源期刊

Pediatric Neurosurgery 医学-临床神经学

CiteScore

1.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Articles in ''Pediatric Neurosurgery'' strives to publish new information and observations in pediatric neurosurgery and the allied fields of neurology, neuroradiology and neuropathology as they relate to the etiology of neurologic diseases and the operative care of affected patients. In addition to experimental and clinical studies, the journal presents critical reviews which provide the reader with an update on selected topics as well as case histories and reports on advances in methodology and technique. This thought-provoking focus encourages dissemination of information from neurosurgeons and neuroscientists around the world that will be of interest to clinicians and researchers concerned with pediatric, congenital, and developmental diseases of the nervous system.