Baumgartner C, Podreka I, Olbrich A, Novak K, Serles W, Aull S, Almer G, Lurger S, Pietrzyk U, Prayer D, Lindinger G
Universitätsklinik für Neurologie, Währinger Gürtel, Vienna, Austria.
Neurology. 1996 Mar;46(3):753-8. doi: 10.1212/wnl.46.3.753.
We report a combined EEG-single-photon emission CT (SPECT) study on a patient with epileptic negative myoclonus (ENM). Clinically, the ENM was characterized by brief repetitive lapses in postural tone of the right upper extremity when the arms were held outstretched, whereas no movement effect was observed during rest. Ictal EEG showed repetitive left frontal spikes with a maximum at electrodes EC1 and F1. EMG silent periods lasting from 100 to 200 ms followed the onset of the EEG transients by a latency of 20 to 40 ms. The N20 component of median nerve somatosensory evoked potentials-representing a biological marker of the location of central fissure-showed a phase reversal between electrodes P3 and C1 and thus was located considerably posterior to the spike maximum. We obtained accurate anatomic reference of cerebral blood flow changes visible on SPECT by a special coregistration technique of MRI and SPECT. SPECT performed during ENM showed a marked regional hyperperfusion in the left middle frontal gyrus and a less pronounced increase in tracer uptake in the left supramarginal gyrus. Our results suggest that ENM is generated by epileptic activity in the premotor area in the middle frontal gyrus corresponding to Brodmann's area 6.
我们报告了一项针对一名患有癫痫性负性肌阵挛(ENM)患者的脑电图与单光子发射计算机断层扫描(SPECT)联合研究。临床上,ENM的特征为双臂伸直时右上肢姿势张力出现短暂重复性丧失,而休息时未观察到运动效应。发作期脑电图显示左侧额叶反复出现棘波,在电极EC1和F1处最为明显。脑电图瞬变开始后20至40毫秒出现持续100至200毫秒的肌电图静息期。正中神经体感诱发电位的N20成分(代表中央沟位置的生物学标志物)在电极P3和C1之间出现相位反转,因此其位置明显在棘波最大值的后方。我们通过磁共振成像(MRI)和SPECT的特殊配准技术获得了SPECT上可见的脑血流变化的精确解剖学参考。在ENM发作期间进行的SPECT显示左侧额中回有明显的局部血流灌注增加,左侧缘上回的示踪剂摄取增加不太明显。我们的结果表明,ENM是由对应于Brodmann 6区的额中回运动前区的癫痫活动产生的。
