Kitamura Y, Kakigi R, Hoshiyama M, Koyama S, Shimojo M, Watanabe S
Department of Integrative Physiology, National Institute for Physiological Sciences, Okazaki, Japan.
Electroencephalogr Clin Neurophysiol. 1995 Dec;95(6):463-74. doi: 10.1016/0013-4694(95)00139-5.
Somatosensory evoked magnetic fields (SEFs) following painful electrical stimulation of the finger were investigated in 5 normal subjects. Equivalent current dipoles (ECDs) of deflections shorter than 100 msec in latency were located in the primary sensory cortex (SI) in the hemisphere contralateral to the stimulated finger following either non-painful or painful stimulation. Two main deflections, N100m-P100m and N250m-P250m, were independently identified following painful stimulation, although they were not found in SEFs following non-painful weak stimulation. ECDs of the N100m-P100m were considered to be located in the bilateral second sensory cortices (SII). ECDs of the N250m-P250m were identified in the bilateral cingulate cortices and SII, but the intersubject difference was large. Therefore, we considered that contralateral SI and bilateral SII were initially activated by painful noxious stimulation, and then multiple areas including bilateral SII and cingulate cortices were activated. In EEG recordings (evoked potentials), no potential corresponding to N100m-P100m was found, probably because it was difficult to record activation in SII by EEG recordings. The P250 potential which corresponded to the N250m-P250m was clearly identified, probably because activation of multiple areas generated large long-duration EEG potentials which were maximal around the vertex, unlike MEG recordings.
我们对5名正常受试者在手指受到疼痛性电刺激后的体感诱发磁场(SEF)进行了研究。在非疼痛性或疼痛性刺激后,潜伏期短于100毫秒的偏转的等效电流偶极子(ECD)位于受刺激手指对侧半球的初级感觉皮层(SI)中。在疼痛性刺激后,独立识别出两个主要的偏转,即N100m-P100m和N250m-P250m,尽管在非疼痛性弱刺激后的SEF中未发现它们。N100m-P100m的ECD被认为位于双侧第二感觉皮层(SII)。N250m-P250m的ECD在双侧扣带回皮层和SII中被识别出来,但个体间差异较大。因此,我们认为对侧SI和双侧SII最初被疼痛性有害刺激激活,然后包括双侧SII和扣带回皮层在内的多个区域被激活。在脑电图记录(诱发电位)中,未发现与N100m-P100m相对应的电位,可能是因为脑电图记录难以记录SII中的激活情况。与N250m-P250m相对应的P250电位被清晰地识别出来,可能是因为多个区域的激活产生了大的长时间脑电图电位,这些电位在头顶附近最大,这与脑磁图记录不同。
