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发作传播与电皮质刺激反应之间的相关性:皮质-皮质诱发电位研究。

Correlations between ictal propagation and response to electrical cortical stimulation: a cortico-cortical evoked potential study.

机构信息

Epilepsy Center, Cleveland Clinic Foundation, Cleveland, OH 44195, USA.

出版信息

Epilepsy Res. 2012 Aug;101(1-2):76-87. doi: 10.1016/j.eplepsyres.2012.03.004. Epub 2012 Mar 28.

DOI:10.1016/j.eplepsyres.2012.03.004
PMID:22459638
Abstract

OBJECTIVE

To better understand the process of ictal propagation in epilepsy by using cortico-cortical evoked potential (CCEP), which reveals the brain networks.

METHODS

Intracranial EEG recordings of 11 seizures from 11 patients with pharmacoresistant focal epilepsy were studied to identify the propagation sites and times. Six patients had a history of secondary generalization (Gen (+) group) and five patients did not (Gen (-) group). Thereafter repetitive 1Hz bipolar electrical stimuli were applied to the ictal onset zones and CCEPs were recorded by averaging electrocorticograms.

RESULTS

The propagation of contiguous spread was significantly faster than non-contiguous spread (p=0.033). In four patients, CCEP amplitudes were significantly larger in the ictal propagation area than out of the propagation area. However, the distribution of CCEP responses was not necessarily consistent with the ictal propagation area as a whole. Furthermore, the ictal propagation areas out of CCEP-positive areas were significantly broader in Gen (+) group than Gen (-) group (p=0.017).

CONCLUSION

The present findings suggest that contiguous spread is faster than non-contiguous spread, which can be explained by the enhancement of excitability around the ictal onset area. Furthermore, there is a group of fibers that is "closed" during the seizures and secondary generalization might be more associated with the impairment of cortical inhibition over the broad cortical area rather than direct connection.

摘要

目的

通过皮层-皮层诱发电位(CCEP)来更好地了解癫痫发作的传播过程,从而揭示大脑网络。

方法

研究了 11 名耐药性局灶性癫痫患者的 11 次癫痫发作的颅内 EEG 记录,以确定传播部位和时间。6 名患者有继发全面性发作的病史(Gen(+)组),5 名患者没有(Gen(-)组)。此后,对癫痫发作起始区进行重复 1Hz 双极电刺激,并通过平均皮质电图记录 CCEPs。

结果

连续传播的传播速度明显快于非连续传播(p=0.033)。在 4 名患者中,CCEP 振幅在癫痫传播区域明显大于传播区域之外。然而,CCEP 反应的分布不一定与整个癫痫传播区域一致。此外,Gen(+)组的癫痫传播区域超出 CCEP 阳性区域的范围明显大于 Gen(-)组(p=0.017)。

结论

本研究结果表明,连续传播的速度快于非连续传播,这可以通过癫痫起始区周围兴奋性的增强来解释。此外,存在一组在癫痫发作期间“关闭”的纤维,继发性全面性发作可能与广泛皮质区域的皮质抑制受损有关,而不是直接的连接。

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