Department of Psychiatry, Psychotherapy and Psychosomatics, RWTH Aachen University, Germany.
Neuroimage. 2012 Mar;60(1):553-61. doi: 10.1016/j.neuroimage.2011.12.007. Epub 2011 Dec 13.
Emotion in daily life is often expressed in a multimodal fashion. Consequently emotional information from one modality can influence processing in another. In a previous fMRI study we assessed the neural correlates of audio-visual integration and found that activity in the left amygdala is significantly attenuated when a neutral stimulus is paired with an emotional one compared to conditions where emotional stimuli were present in both channels. Here we used dynamic causal modelling to investigate the effective connectivity in the neuronal network underlying this emotion presence congruence effect. Our results provided strong evidence in favor of a model family, differing only in the interhemispheric interactions. All winning models share a connection from the bilateral fusiform gyrus (FFG) into the left amygdala and a non-linear modulatory influence of bilateral posterior superior temporal sulcus (pSTS) on these connections. This result indicates that the pSTS not only integrates multi-modal information from visual and auditory regions (as reflected in our model by significant feed-forward connections) but also gates the influence of the sensory information on the left amygdala, leading to attenuation of amygdala activity when a neutral stimulus is integrated. Moreover, we found a significant lateralization of the FFG due to stronger driving input by the stimuli (faces) into the right hemisphere, whereas such lateralization was not present for sound-driven input into the superior temporal gyrus. In summary, our data provides further evidence for a rightward lateralization of the FFG and in particular for a key role of the pSTS in the integration and gating of audio-visual emotional information.
日常生活中的情绪通常以多模态的方式表达。因此,一种模态的情感信息可以影响另一种模态的加工。在之前的 fMRI 研究中,我们评估了视听整合的神经相关性,发现当中性刺激与情绪刺激配对时,左杏仁核的活动明显减弱,而在两种通道都存在情绪刺激的情况下则不会。在这里,我们使用动态因果建模来研究这种情绪存在一致性效应的神经回路的有效连接。我们的结果为一个模型家族提供了强有力的证据,这些模型仅在半球间相互作用上有所不同。所有获胜模型都共享一个从双侧梭状回(FFG)到左杏仁核的连接,以及双侧后颞上回(pSTS)对这些连接的非线性调制影响。这一结果表明,pSTS 不仅整合了来自视觉和听觉区域的多模态信息(如我们的模型中反映的那样,通过显著的前馈连接),而且还对左杏仁核的感觉信息进行了门控,从而导致当中性刺激被整合时,杏仁核活动的减弱。此外,我们发现由于刺激(面孔)对右半球的驱动输入更强,FFG 存在明显的偏侧化,而对于声音驱动的输入进入上颞叶则不存在这种偏侧化。总之,我们的数据进一步证明了 FFG 的右偏侧化,特别是 pSTS 在视听情绪信息的整合和门控中的关键作用。