Mech-Sense, Department of Gastroenterology, Aalborg Hospital, Aarhus University, Aalborg, Denmark.
Eur J Pain. 2012 Jul;16(6):827-37. doi: 10.1002/j.1532-2149.2011.00063.x. Epub 2011 Dec 19.
Application of electrical stimulation through conventional surface electrodes activates both non-nociceptive and nociceptive fibres. To encompass this problem, electrical stimulation through small area pin electrode was introduced where subjective description of stimulation quality indicated preferential activation of nociceptors. The present study aimed to show that brain areas involved in nociceptive processing are activated by stimulation through cutaneous pin electrode (CPE) to a larger extent than conventional surface electrodes.
Evoked potentials (EPs) were induced by electrical stimulation through conventional surface and CPE electrodes. The EPs were recorded from 62 scalp electrodes in 12 healthy volunteers where stimulation intensity was 10 times the sensory threshold. Dipolar models of brain sources were built by using the brain electrical source analysis.
The solution for the conventional large area surface electrode was a four-dipole model including contralateral primary somatosensory cortex, bilateral secondary somatosensory cortex (SII) and mid-cingulate sources. The solution for CPE was a five-dipole model and very similar to that previously described to explain the topography of laser EPs. The solution included bilateral SII, bilateral insula and mid-cingulate sources. Since laser stimuli mainly activate nociceptive fibres, the strong similarity suggests that mainly nociceptive inputs are involved in generation of CPE-evoked responses.
The current study gives evidence that CPE activates the nociceptive brain areas to a greater extent than conventional surface electrode. Therefore, CPE should preferentially be utilized in future studies where electrical stimuli are used to study nociception.
通过传统表面电极进行电刺激会激活非伤害性和伤害性纤维。为了解决这个问题,引入了通过小面积针电极进行电刺激,其中刺激质量的主观描述表明对伤害感受器的激活具有优先性。本研究旨在表明,通过皮肤针电极(CPE)进行刺激会更广泛地激活参与伤害性处理的脑区,而不是通过传统表面电极。
通过传统表面和 CPE 电极进行电刺激诱导诱发电位(EP)。在 12 名健康志愿者的 62 个头皮电极上记录 EP,刺激强度为感觉阈的 10 倍。使用脑电源分析构建脑源的偶极子模型。
传统大表面积电极的解为包括对侧初级体感皮层、双侧次级体感皮层(SII)和中扣带源的四偶极子模型。CPE 的解为五偶极子模型,与之前解释激光 EP 拓扑结构的模型非常相似。该解包括双侧 SII、双侧岛叶和中扣带源。由于激光刺激主要激活伤害性纤维,因此强烈的相似性表明,CPE 诱发反应的产生主要涉及伤害性输入。
本研究提供的证据表明,CPE 比传统表面电极更广泛地激活伤害性脑区。因此,在未来使用电刺激研究伤害感受的研究中,应优先使用 CPE。
