首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 125 毫秒
1.
动态与录像脑电图在癫(癎)诊断中的比较   总被引:1,自引:0,他引:1  
癫(癎)是慢性反复发作性短暂性脑功能失调综合征,以脑神经元异常放电引起反复(癎)性发作为特征.目前国际抗癫(癎)联盟关于癫(癎)和癫(癎)综合征国际分类的依据:(1)临床发作特点;(2)发作间期脑电图(EEG);(3)发作期EEG .  相似文献   

2.
目的 评价多种无创性定位手段在颞叶内侧癫(癎)患者术前癫(癎)灶定位中的可靠性.方法 选择2002年5月至2005年5月间在我院行前颞叶内侧切除,随访1年以上,预后为Engle I级的40例患者,回顾性地总结这组病例发作间期和发作期脑电图、发作症状、头颅MRI、发作问期SPECT所提供的定侧定位信息,分析其在癫疴灶定位中的价值.结果 (1)发作间期颞前尖波:出现单侧独立尖波者37例(92.5%),其中35例(94.6%)与癫(癎)灶侧别相符;(2)发作期脑电图:32例获取了发作期脑电图,26例(81.2%)的发作期脑电图可提供定侧信息,其中25例(96.2%)与癫(癎)灶的侧别相符;(3)发作症状:23例(57.5%)患者的发作症状可以提供癫(癎)灶侧别信息,其中19例(82.6%)提供的侧别信息与癫(癎)灶侧别一致;(4)头颅MRI:38例(95.0%)头颅MRI提示一侧海马及颞叶的信号或结构异常,其中37例(97.4%)与癫(癎)灶侧别相符;(5)发作间期SPECT:23例患者行同位素检查,22例(95.7%)可提供癫(癎)灶侧别信息,其中18例(81.8%)与癫(癎)灶侧别相符.结论 颞叶内侧癫(癎)术前无创性定位定侧方法中,提供定侧信息比较敏感的方法依次为SPECT、MRI、发作问期脑电图、发作期脑电图和发作症状,而定侧信息可靠性的高低依次为头颅MRI、发作期脑电图、发作间期脑电图、发作症状和SPECT.  相似文献   

3.
目的:通过比较癫(癎)发作间期不同发作类型患者与正常对照组之间脑电非线性特点,探讨非线性脑电图在发作间期癫(癎)患者脑功能评价中的意义及应用价值.方法:对发作间期36例癫(癎)发作患者(其中21例强直阵挛发作患者和15例复杂部分性发作)和32例健康对照组分别行安静闭眼、闭眼心算、安静睁眼3种脑功能活动状态下的脑电图检查...  相似文献   

4.
目的 探讨癫(癎)患者先兆症状的发生比例、临床表现,为正确诊断治疗癫(癎)提供依据.方法 回顾性研究1028例癫(癎)患者的临床资料,分析癫(癎)患者的先兆发生率、临床表现、脑电图和神经影像学结果.比较伴或不伴先兆的部分性发作癫(癎)患者的发病年龄、性别、脑电图、神经影像学的差异以及腹部先兆在颞叶内外侧癫(癎)出现比例的差异.结果 部分性癫(癎)725例,484例(66.8 % )出现先兆;全面性发作者303例,无一例患者出现先兆.64例患者出现2种或2种以上的先兆表现;14例出现持续性先兆的癫(癎)患者.1028例患者中脑电图异常547例(53.2 % ),影像学异常217例(21.1 % ).484例有先兆症状的患者中286例脑电图异常(59.1 % ),126例(26.0 % )影像学异常.伴或不伴先兆的部分性发作癫(癎)患者的首次发病年龄差异无统计学意义,腹部先兆在颞叶内外侧癫(癎)出现的比例差异有统计学意义(x2=170.877,P<0.01).结论 癫(癎)患者先兆症状多样,分析先兆症状对于癫(癎)分型、病灶定位以及合理治疗有指导意义.  相似文献   

5.
目的 探讨癫(癎)患者先兆症状的发生比例、临床表现,为正确诊断治疗癫(癎)提供依据.方法 回顾性研究1028例癫(癎)患者的临床资料,分析癫(癎)患者的先兆发生率、临床表现、脑电图和神经影像学结果.比较伴或不伴先兆的部分性发作癫(癎)患者的发病年龄、性别、脑电图、神经影像学的差异以及腹部先兆在颞叶内外侧癫(癎)出现比例的差异.结果 部分性癫(癎)725例,484例(66.8 % )出现先兆;全面性发作者303例,无一例患者出现先兆.64例患者出现2种或2种以上的先兆表现;14例出现持续性先兆的癫(癎)患者.1028例患者中脑电图异常547例(53.2 % ),影像学异常217例(21.1 % ).484例有先兆症状的患者中286例脑电图异常(59.1 % ),126例(26.0 % )影像学异常.伴或不伴先兆的部分性发作癫(癎)患者的首次发病年龄差异无统计学意义,腹部先兆在颞叶内外侧癫(癎)出现的比例差异有统计学意义(x2=170.877,P<0.01).结论 癫(癎)患者先兆症状多样,分析先兆症状对于癫(癎)分型、病灶定位以及合理治疗有指导意义.  相似文献   

6.
目的 探讨癫(癎)患者先兆症状的发生比例、临床表现,为正确诊断治疗癫(癎)提供依据.方法 回顾性研究1028例癫(癎)患者的临床资料,分析癫(癎)患者的先兆发生率、临床表现、脑电图和神经影像学结果.比较伴或不伴先兆的部分性发作癫(癎)患者的发病年龄、性别、脑电图、神经影像学的差异以及腹部先兆在颞叶内外侧癫(癎)出现比例的差异.结果 部分性癫(癎)725例,484例(66.8 % )出现先兆;全面性发作者303例,无一例患者出现先兆.64例患者出现2种或2种以上的先兆表现;14例出现持续性先兆的癫(癎)患者.1028例患者中脑电图异常547例(53.2 % ),影像学异常217例(21.1 % ).484例有先兆症状的患者中286例脑电图异常(59.1 % ),126例(26.0 % )影像学异常.伴或不伴先兆的部分性发作癫(癎)患者的首次发病年龄差异无统计学意义,腹部先兆在颞叶内外侧癫(癎)出现的比例差异有统计学意义(x2=170.877,P<0.01).结论 癫(癎)患者先兆症状多样,分析先兆症状对于癫(癎)分型、病灶定位以及合理治疗有指导意义.  相似文献   

7.
目的 探讨癫(癎)患者先兆症状的发生比例、临床表现,为正确诊断治疗癫(癎)提供依据.方法 回顾性研究1028例癫(癎)患者的临床资料,分析癫(癎)患者的先兆发生率、临床表现、脑电图和神经影像学结果.比较伴或不伴先兆的部分性发作癫(癎)患者的发病年龄、性别、脑电图、神经影像学的差异以及腹部先兆在颞叶内外侧癫(癎)出现比例的差异.结果 部分性癫(癎)725例,484例(66.8 % )出现先兆;全面性发作者303例,无一例患者出现先兆.64例患者出现2种或2种以上的先兆表现;14例出现持续性先兆的癫(癎)患者.1028例患者中脑电图异常547例(53.2 % ),影像学异常217例(21.1 % ).484例有先兆症状的患者中286例脑电图异常(59.1 % ),126例(26.0 % )影像学异常.伴或不伴先兆的部分性发作癫(癎)患者的首次发病年龄差异无统计学意义,腹部先兆在颞叶内外侧癫(癎)出现的比例差异有统计学意义(x2=170.877,P<0.01).结论 癫(癎)患者先兆症状多样,分析先兆症状对于癫(癎)分型、病灶定位以及合理治疗有指导意义.  相似文献   

8.
目的 探讨癫(癎)患者先兆症状的发生比例、临床表现,为正确诊断治疗癫(癎)提供依据.方法 回顾性研究1028例癫(癎)患者的临床资料,分析癫(癎)患者的先兆发生率、临床表现、脑电图和神经影像学结果.比较伴或不伴先兆的部分性发作癫(癎)患者的发病年龄、性别、脑电图、神经影像学的差异以及腹部先兆在颞叶内外侧癫(癎)出现比例的差异.结果 部分性癫(癎)725例,484例(66.8 % )出现先兆;全面性发作者303例,无一例患者出现先兆.64例患者出现2种或2种以上的先兆表现;14例出现持续性先兆的癫(癎)患者.1028例患者中脑电图异常547例(53.2 % ),影像学异常217例(21.1 % ).484例有先兆症状的患者中286例脑电图异常(59.1 % ),126例(26.0 % )影像学异常.伴或不伴先兆的部分性发作癫(癎)患者的首次发病年龄差异无统计学意义,腹部先兆在颞叶内外侧癫(癎)出现的比例差异有统计学意义(x2=170.877,P<0.01).结论 癫(癎)患者先兆症状多样,分析先兆症状对于癫(癎)分型、病灶定位以及合理治疗有指导意义.  相似文献   

9.
目的 探讨癫(癎)患者先兆症状的发生比例、临床表现,为正确诊断治疗癫(癎)提供依据.方法 回顾性研究1028例癫(癎)患者的临床资料,分析癫(癎)患者的先兆发生率、临床表现、脑电图和神经影像学结果.比较伴或不伴先兆的部分性发作癫(癎)患者的发病年龄、性别、脑电图、神经影像学的差异以及腹部先兆在颞叶内外侧癫(癎)出现比例的差异.结果 部分性癫(癎)725例,484例(66.8 % )出现先兆;全面性发作者303例,无一例患者出现先兆.64例患者出现2种或2种以上的先兆表现;14例出现持续性先兆的癫(癎)患者.1028例患者中脑电图异常547例(53.2 % ),影像学异常217例(21.1 % ).484例有先兆症状的患者中286例脑电图异常(59.1 % ),126例(26.0 % )影像学异常.伴或不伴先兆的部分性发作癫(癎)患者的首次发病年龄差异无统计学意义,腹部先兆在颞叶内外侧癫(癎)出现的比例差异有统计学意义(x2=170.877,P<0.01).结论 癫(癎)患者先兆症状多样,分析先兆症状对于癫(癎)分型、病灶定位以及合理治疗有指导意义.  相似文献   

10.
目的 探讨癫(癎)患者先兆症状的发生比例、临床表现,为正确诊断治疗癫(癎)提供依据.方法 回顾性研究1028例癫(癎)患者的临床资料,分析癫(癎)患者的先兆发生率、临床表现、脑电图和神经影像学结果.比较伴或不伴先兆的部分性发作癫(癎)患者的发病年龄、性别、脑电图、神经影像学的差异以及腹部先兆在颞叶内外侧癫(癎)出现比例的差异.结果 部分性癫(癎)725例,484例(66.8 % )出现先兆;全面性发作者303例,无一例患者出现先兆.64例患者出现2种或2种以上的先兆表现;14例出现持续性先兆的癫(癎)患者.1028例患者中脑电图异常547例(53.2 % ),影像学异常217例(21.1 % ).484例有先兆症状的患者中286例脑电图异常(59.1 % ),126例(26.0 % )影像学异常.伴或不伴先兆的部分性发作癫(癎)患者的首次发病年龄差异无统计学意义,腹部先兆在颞叶内外侧癫(癎)出现的比例差异有统计学意义(x2=170.877,P<0.01).结论 癫(癎)患者先兆症状多样,分析先兆症状对于癫(癎)分型、病灶定位以及合理治疗有指导意义.  相似文献   

11.
PURPOSE: To investigate Blood Oxygen Level Dependent (BOLD) responses to interictal epileptic discharges (IEDs) during EEG-correlated functional MRI (EEG-fMRI) in patients with partial epilepsy. METHODS: We studied eight patients who had a diagnosis of partial epilepsy and active spiking on routine scalp EEG recording. Sessions of continuous EEG-fMRI were recorded, and spikes (identified after online artifact removal) were used as events in the fMRI analysis. Regions of BOLD signal change in response to interictal epileptic discharge were assessed and epileptogenic zone localization was electroclinically identified. RESULTS: Eight patients with partial epilepsy were recruited (6 males, 2 females, mean age 18.5, mean onset age range 0.5-29). Two who underwent EEG-fMRI were excluded from further analysis: one due to absence of epileptic discharges, the other due to excessive head motion. Eight sessions of EEG-fMRI scanning in 6 patients were obtained: 6 with activation and deactivation, one with activation only, and one with deactivation only. Focal activations corresponding to electroclinical localization occurred in 7 sessions, 5 of which were maximal. CONCLUSIONS: Maximally activated areas detected by EEG-fMRI in patients with partial epilepsy appear to be concordant with epileptogenic areas as defined by electroclinical localization data. In most patients with focal epilepsy, positive BOLD responses seem to be mainly in epileptogenic zones and the corresponding contralateral areas. Responses to deactivation seem less associated with IEDs. So EEG-fMRI is a useful tool to study the pathophysiological mechanisms of epilepsy and may assist in presurgical evaluation of epilepsy.  相似文献   

12.
Using continuous EEG-correlated fMRI, we investigated the Blood Oxygen Level Dependent (BOLD) signal correlates of interictal epileptic discharges (IEDs) in 63 consecutively recruited patients with focal epilepsy. Semi-automated spike detection and advanced modeling strategies are introduced to account for different EEG event types, and to minimize false activations from uncontrolled motion. We show that: (1) significant hemodynamic correlates were detectable in over 68% of patients in whom discharges were captured and were highly, but not entirely, concordant with site(s) of presumed seizure generation where known; (2) deactivations were less concordant and may non-specifically reflect the consequential or downstream effects of IEDs on brain activity; (3) a striking pattern of retrosplenial deactivation was observed in 7 cases mainly with focal discharges; (4) the basic hemodynamic response to IEDs is physiological; (5) incorporating information about different types of IEDs, their durations and saturation effects resulted in more powerful models for the detection of fMRI correlates; (6) focal activations were more likely when there was good electroclinical localization, frequent stereotyped spikes, less head motion and less background EEG abnormality, but were also seen in patients in whom the electroclinical focus localization was uncertain. These findings provide important new information on the optimal use and interpretation of EEG-fMRI in focal epilepsy and suggest a possible role for EEG-fMRI in providing new targets for invasive EEG monitoring.  相似文献   

13.
Background and PurposeThe current study analyzed the interictal epileptiform discharge (IED)-related hemodynamic response and aimed to determine the clinical usefulness of simultaneous electroencephalography and functional magnetic resonance imaging (EEG-fMRI) in defining the epileptogenic zone (EZ) in children with focal epilepsy.MethodsPatients with focal epilepsy showing IEDs on conventional EEG were evaluated using EEG-fMRI. Statistical analyses were performed using the times of spike as events modeled with multiple hemodynamic response functions. The area showing the most significant t-value for blood-oxygen-level-dependent (BOLD) changes was compared with the presumed EZ. Moreover, BOLD responses between -9 and +9 s around the spike times were analyzed to track the hemodynamic response patterns over time.ResultsHalf (n=13) of 26 EEG-fMRI investigations of 19 patients were successful. Two patients showed 2 different types of spikes, resulting in 15 analyses. The maximum BOLD response was concordant with the EZ in 11 (73.3%) of the 15 analyses. In 10 (66.7%) analyses, the BOLD response localized the EZs more specifically. Focal BOLD responses in the EZs occurred before IEDs in 11 analyses and were often widespread after IEDs. Hemodynamic response patterns were consistent in the same epilepsy syndrome or when repeating the investigation in the same patients.ConclusionsEEG-fMRI can provide additional information for localizing the EZ in children with focal epilepsy, and also reveal the pathogenesis of pediatric epilepsy by evaluating the patterns in the hemodynamic response across time windows of IEDs.  相似文献   

14.
ObjectiveTo identify features of BOLD signal change associated with interictal epileptiform discharges (IEDs) in a heterogeneous group of focal epilepsy patients.MethodsEEG/fMRI studies in 27 focal epilepsy patients were reviewed with attention given to the extent and location of the IED and the resulting pattern of BOLD signal change. Second order group analysis was used to identify common features.ResultsfMRI results provided novel clinical information for individual patients. We identified a significant common node within the ipsilateral piriform cortex as well as patterns involving distant cortical or subcortical areas.ConclusionDespite the heterogeneity of IEDs in focal epilepsy, there are important common features underpining IEDs with a highly significant fMRI node in the ipsilateral piriform cortex.SignificanceThere are important common features in the networks involved in IEDs in patients with a heterogeneous range of epileptogenic foci. We confirm that the piriform cortex is a common node underlying IEDs in patients with focal epilepsy and so provides a target for further study and potential therapy. We describe important features of BOLD signal change that accompany focal and diffuse IEDs that will help researchers and clinicians navigate the sometimes complex findings revealed by these studies.  相似文献   

15.
ObjectiveWe hypothesized that the number of interictal epileptic discharges (IEDs) during scan and their spatial extent are contributing factors in obtaining appropriate activations that reveal the seizure onset zone (SOZ) in EEG-fMRI.Methods157 IED types, each corresponding to one EEG scalp distribution, in 64 consecutive EEG-fMRI studies from 64 patients with refractory localization-related epilepsy were reviewed. To determine reliable activation, we used the threshold corresponding to corrected whole-brain topological false discovery rate (FDR). The location with maximum activation was compared to the presumed SOZ as defined by a comprehensive evaluation for each patient.ResultsThe number of IEDs was significantly higher in the types with t-value above FDR than with t-value below FDR. The presumed SOZ could be delineated in 30 of the 64 patients. Among these patients, the types of IED concordant with the SOZ had significantly larger extent on scalp EEG than the IED types discordant with the SOZ.ConclusionsThe number of IEDs is important factor in obtaining reliable activations in EEG-fMRI. IEDs with larger spatial extent are more likely to reveal, on maximum BOLD, accurate location of the SOZ.SignificanceWidespread discharges are more likely to yield a reliable activation for SOZ in EEG-fMRI.  相似文献   

16.
Atypical benign partial epilepsy (ABPE) is a subgroup among the idiopathic focal epilepsies of childhood. Aim of this study was to investigate neuronal networks underlying ABPE and compare the results with previous electroencephalography (EEG)–functional magnetic resonance imaging (fMRI) studies of related epilepsy syndromes. Ten patients with ABPE underwent simultaneous EEG‐fMRI recording. In all 10 patients several types of interictal epileptiform discharges (IEDs) were recorded. Individual IED‐associated blood oxygen level–dependent (BOLD) signal changes were analyzed in a single subject analysis for each IED type (33 studies). A group analysis was also performed to determine common BOLD signal changes across the patients. IED‐associated BOLD signal changes were found in 31 studies. Focal BOLD signal changes concordant with the spike field (21 studies) and distant cortical and subcortical BOLD signal changes (31 studies) were detected. The group analysis revealed a thalamic activation. This study demonstrated that ABPE is characterized by patterns similar to studies in rolandic epilepsy (focal BOLD signal changes in the spike field) as well as patterns observed in continuous spikes and waves during slow sleep (CSWS) (distant BOLD signal changes in cortical and subcortical structures), thereby underscoring that idiopathic focal epilepsies of childhood form a spectrum of overlapping syndromes.  相似文献   

17.
Simultaneous collection of scalp EEG and fMRI has become an important tool for studying the hemodynamic changes associated with interictal epileptiform discharges (IEDs) in persons with epilepsy, and has become a standard presurgical assessment tool in some centres. We previously demonstrated that performing EEG‐fMRI using intracranial electrodes (iEEG‐fMRI) is of low risk to patients in our research centre, and offers unique insight into BOLD signal changes associated with IEDs recorded from very discrete sources. However, it is unknown whether the BOLD response corresponding to IEDs recorded by iEEG‐fMRI follows the canonical hemodynamic response. We therefore scanned 11 presurgical epilepsy patients using iEEG‐fMRI, and assessed the hemodynamic response associated with individual IEDs using two methods: assessment of BOLD signal changes associated with isolated IEDs at the location of the active intracranial electrode, and by estimating subject‐specific impulse response functions to isolated IEDs. We found that the hemodynamic response associated with the intracranially recorded discharges varied by patient and by spike location. The observed shape and timing differences also deviated from the canonical hemodynamic response function traditionally used in many fMRI experiments. It is recommended that future iEEG‐fMRI studies of IEDs use a flexible hemodynamic response model when performing parametric tests to accurately characterize these data. Hum Brain Mapp 36:5252–5264, 2015. © 2015 Wiley Periodicals, Inc.  相似文献   

18.
PURPOSE: Ninety percent of patients with tuberous sclerosis complex (TSC) have epilepsy. Identification of epileptogenic areas can be difficult and studies are needed to characterize the epileptogenic network in more detail. METHODS: Five children with TSC and focal epilepsy were studied using simultaneous EEG and functional MRI recordings. Tubers were marked by a neuroradiologist on the anatomical MRI. Spike-associated BOLD (blood oxygenation level-dependent) responses were superimposed with lesions. RESULTS: Thirteen different types of interictal epileptiform discharges (IED) were analyzed with 12 showing a BOLD response, all involving more than one tuber. Five studies had tubers with activations exclusively within the lesion, three studies had lesional activations extending to perilesional areas, and two studies had activations involving exclusively perilesional areas of at least one tuber. Deactivations exclusively within a tuber were found in six studies, lesional deactivations extending to perilesional areas were found in four studies, and tubers with exclusively perilesional deactivations were found in five studies. A BOLD response was found in at least one tuber in the lobe of IED generation and presumed seizure onset (according to telemetry) in all patients. In four patients, the same tubers were involved following different IED localizations. The observed changes were always multifocal, sometimes involving tubers distant from the IED field. DISCUSSION: These findings suggest extended epileptogenic networks in patients with TSC, which exceed networks described in PET and SPECT studies. It was possible to identify specific interictally active tubers. EEG-fMRI provides a noninvasive method to select tubers and areas at their borders for further presurgical investigations.  相似文献   

19.
PURPOSE: Simultaneous electroencephalogram (EEG) and functional magnetic resonance imaging (fMRI) (EEG-fMRI) recording is a noninvasive tool for investigating epileptogenic networks. Most EEG-fMRI studies in epilepsy have been performed in adults. Childhood epilepsies, however, differ from those in adults due to interactions between epileptogenic and developmental processes. The purpose of this study was to investigate EEG-fMRI in children with lesional epilepsies. METHODS: Thirteen children with symptomatic epilepsy underwent a 20-min EEG-fMRI acquisition at 3 T under sedation-induced sleep. Statistical analysis was performed using the timing of spikes as events, modelled with hemodynamic response functions (HRFs) that peaked at 3, 5, 7, and 9 s after the spike. RESULTS: Each spike type was analyzed separately, resulting in 25 studies. In 84% of the studies, blood oxygenation level-dependent (BOLD) responses were localized in the lesion or brain area presumably generating spikes. Activation (positive BOLD) corresponding with the lesion was seen in 20% and deactivation (negative BOLD) in 52% of the studies. In the area of spike generation, activation was found in 48% of studies and deactivation in 36%. CONCLUSIONS: Despite the necessarily short recording times (20 min), good results could be obtained from the EEG-fMRI recordings, performed in sedated children using a high field scanner and individual HRFs. In contrast to studies in adults, deactivations in the lesion and the irritative zone were more common than activations. The impact of age, sleep, and sedation on the BOLD response might explain these findings, but future studies in children should not disregard the importance of deactivations in relation to the epileptogenic network.  相似文献   

20.
We analyzed the effect of afferent input on patterns of brain electrical activation in a 31-year-old man with progressive myoclonic epilepsy (PME) by measuring the somatosensory evoked potential (SSEP) amplitude at the scalp after median nerve stimulation and examining the changes in the functional magnetic resonance imaging blood oxygen level-dependent (fMRI BOLD) signal. High-amplitude SSEPs were elicited at the wrist in association with highly focal BOLD activation of the contralateral sensorimotor areas. By contrast, no diffuse activation of either the frontal or the posterior parietal cortical areas was observed, as seen in previously recorded data on SSEPs from a healthy control group. The highly focal BOLD activation in this patient suggests that cortex hyperexcitability might be limited to the sensorimotor cortex in PME. The combined EEG-fMRI findings highlight a dissociation between BOLD activation and neurophysiological findings.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号