Sammler Daniela, Grigutsch Maren, Fritz Thomas, Koelsch Stefan
Max Planck Institute for Human Cognitive and Brain Sciences, Leipzig, Germany.
Psychophysiology. 2007 Mar;44(2):293-304. doi: 10.1111/j.1469-8986.2007.00497.x.
Human emotion and its electrophysiological correlates are still poorly understood. The present study examined whether the valence of perceived emotions would differentially influence EEG power spectra and heart rate (HR). Pleasant and unpleasant emotions were induced by consonant and dissonant music. Unpleasant (compared to pleasant) music evoked a significant decrease of HR, replicating the pattern of HR responses previously described for the processing of emotional pictures, sounds, and films. In the EEG, pleasant (contrasted to unpleasant) music was associated with an increase of frontal midline (Fm) theta power. This effect is taken to reflect emotional processing in close interaction with attentional functions. These findings show that Fm theta is modulated by emotion more strongly than previously believed.
人类情绪及其电生理关联仍未得到充分理解。本研究考察了所感知情绪的效价是否会对脑电图功率谱和心率(HR)产生不同影响。通过和谐与不和谐音乐诱发愉悦和不悦情绪。与愉悦音乐相比,不悦音乐引起心率显著下降,这与先前描述的处理情绪图片、声音和电影时的心率反应模式一致。在脑电图方面,与不悦音乐相比,愉悦音乐与额中线(Fm)θ波功率增加相关。这一效应被认为反映了与注意力功能密切相关的情绪处理过程。这些发现表明,Fmθ波受情绪调节的程度比之前认为的更强。