Neuroradiology, Neurocenter of Italian Switzerland-Ospedale regionale Lugano, Via Tesserete 46, Lugano, 6900, CH, Switzerland.
Eur J Radiol. 2013 Nov;82(11):1964-72. doi: 10.1016/j.ejrad.2013.05.020. Epub 2013 Jun 17.
Introduction MRI abnormalities in the postictal period might represent the effect of the seizure activity, rather than its structural cause. Material and Methods Retrospective review of clinical and neuroimaging charts of 26 patients diagnosed with seizure-related MR-signal changes. All patients underwent brain-MRI (1.5-Tesla, standard pre- and post-contrast brain imaging, including DWI-ADC in 19/26) within 7 days from a seizure and at least one follow-up MRI, showing partial or complete reversibility of the MR-signal changes. Extensive clinical work-up and follow-up, ranging from 3 months to 5 years, ruled out infection or other possible causes of brain damage. Seizure-induced brain-MRI abnormalities remained a diagnosis of exclusion. Site, characteristics and reversibility of MRI changes, and association with characteristics of seizures were determined. Results MRI showed unilateral (13/26) and bilateral abnormalities, with high (24/26) and low (2/26) T2-signal, leptomeningeal contrast-enhancement (2/26), restricted diffusion (9/19). Location of abnormality was cortical/subcortical, basal ganglia, white matter, corpus callosum, cerebellum. Hippocampus was involved in 10/26 patients. Reversibility of MRI changes was complete in 15, and with residual gliosis or focal atrophy in 11 patients. Reversibility was noted between 15 and 150 days (average, 62 days). Partial simple and complex seizures were associated with hippocampal involvement (p=0.015), status epilepticus with incomplete reversibility of MRI abnormalities (p=0.041). Conclusions Seizure or epileptic status can induce transient, variably reversible MRI brain abnormalities. Partial seizures are frequently associated with hippocampal involvement and status epilepticus with incompletely reversible lesions. These seizure-induced MRI abnormalities pose a broad differential diagnosis; increased awareness may reduce the risk of misdiagnosis and unnecessary intervention.
介绍
发作后磁共振成像(MRI)异常可能代表癫痫活动的影响,而不是其结构原因。
材料与方法
回顾性分析 26 例诊断为与癫痫相关的 MRI 信号改变患者的临床和神经影像学图表。所有患者在癫痫发作后 7 天内进行脑部 MRI(1.5 Tesla,标准的对比前和对比后脑成像,包括 19/26 例弥散加权成像-ADC),并至少进行一次随访 MRI,显示 MRI 信号改变部分或完全可逆。广泛的临床评估和随访时间从 3 个月到 5 年不等,排除了感染或其他可能导致脑损伤的原因。癫痫发作引起的脑 MRI 异常仍被认为是一种排除性诊断。确定 MRI 变化的部位、特征和可逆性,以及与癫痫发作特征的相关性。
结果
MRI 显示单侧(13/26)和双侧异常,高信号(24/26)和低信号(2/26)T2,脑膜对比增强(2/26),弥散受限(9/19)。异常部位为皮质/皮质下、基底节、白质、胼胝体、小脑。26 例患者中有 10 例累及海马。15 例 MRI 改变完全可逆,11 例有残留的神经胶质增生或局灶性萎缩。在 15 到 150 天之间(平均 62 天)观察到了可逆性。部分简单和复杂的癫痫发作与海马受累相关(p=0.015),癫痫持续状态与 MRI 异常的不完全可逆性相关(p=0.041)。
结论
癫痫发作或癫痫状态可引起短暂、可变的 MRI 脑异常。部分癫痫发作常与海马受累有关,癫痫持续状态与不可完全逆转的病变有关。这些由癫痫发作引起的 MRI 异常具有广泛的鉴别诊断;提高认识可能会降低误诊和不必要干预的风险。
