高频(600赫兹)SEP活动起源于皮层下和皮层人体体感觉系统

René Gobbelé , Helmut Buchner , Gabriel Curio
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引用次数: 141

摘要

数字高通滤波后的正中神经SEP显示一个低频高频(600 Hz)小波叠加在N20分量上的振荡爆发,而N20分量本身是由3b区锥体细胞的兴奋性突触后电位产生的。先前的研究使用脑磁图(MEG)定位一个小波发生器靠近初级体感手皮层。由于MEG记录偏向于切线定向和浅层发生器,因此本文采用32通道电SEP记录的偶极源分析来测试深层和/或径向定向爆发发生器的可能性:在10名正常受试者中,在应用数字475 Hz高通滤波器前后,使用偶极源分析来评估低噪声(平均16000)正中神经SEP。模拟了两个主要的600 Hz振荡突发源;(i)靠近丘脑的深爆发源,在脑干P14和皮质N20源之间的时间窗口中最活跃,在10名受试者中有7名可检测到;最有可能的是,这种活动起源于丘脑皮质纤维的深层轴突段;(ii)随后的爆发源在N20附近,位于所有受试者的初级体感手皮层附近,这已经从MEG数据中得知。这种浅表振荡源可能是由丘脑脉冲发生器发起的丘脑皮层投射纤维末端的重复活动主导的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High-frequency (600 Hz) SEP activities originating in the subcortical and cortical human somatosensory system

Digitally high-pass filtered median nerve SEP show an oscillatory burst of low-amplitude high-frequency (600 Hz) wavelets superimposed on the N20 component which itself is generated by excitatory postsynaptic potentials of area 3b pyramidal cells. Prior studies using magnetoencephalography (MEG) localized one wavelet generator close to the primary somatosensory hand cortex. Since MEG recordings are biased towards tangentially oriented and superficial generators, a dipole source analysis of 32-channel electric SEP recordings was employed here to test for the possibility of deep and/or radially oriented burst generators: in 10 normal subjects low noise (16 000 averages) median nerve SEP were evaluated using dipole source analysis before and after applying a digital 475 Hz high-pass filter. Two main oscillatory 600 Hz burst sources were modeled; (i) a deep burst source close to the thalamus, most active in a time window between the brain-stem P14 and the cortical N20 sources, detectable in 7 of 10 subjects; most probably, this activity originates from deep axon segments of thalamocortical fibers; and (ii) a subsequent burst source timed around the N20 and located in the vicinity of the primary somatosensory hand cortex in all subjects, which was already known from MEG data. This superficial oscillatory source may be dominated by repetitive activity conducted in the terminal segments of the thalamocortical projection fibers initiated by the thalamic burst generator.

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