Cortical activation during Pavlovian fear conditioning depends on heart rate response patterns: An MEG study

Cognitive Brain Research Pub Date : 2005-10-01 DOI:10.1016/j.cogbrainres.2005.07.006

Stephan Moratti, Andreas Keil

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引用次数: 67

Abstract

In the present study, we examined stimulus-driven neuromagnetic activity in a delayed Pavlovian aversive conditioning paradigm using steady state visual evoked fields (SSVEF). Subjects showing an accelerative heart rate (HR) component to the CS+ during learning trials exhibited an increased activation in sensory and parietal cortex due to CS+ depiction in the extinction block. This was accompanied by a selective orientation response (OR) to the CS+ during extinction as indexed by HR deceleration. However, they did not show any differential cortical activation patterns during acquisition. In contrast, subjects not showing an accelerative HR component but rather unspecific HR changes during learning were characterized by greater activity in left orbito-frontal brain regions in the acquisition block but did not show differential SSVEF patterns during extinction. The results suggest that participants expressing different HR responses also differ in their stimulus-driven neuromagnetic response pattern to an aversively conditioned stimulus.

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巴甫洛夫恐惧条件反射过程中的皮质激活取决于心率反应模式:一项脑磁图研究

在本研究中，我们使用稳态视觉诱发场(SSVEF)研究了延迟巴甫洛夫厌恶条件反射范式中刺激驱动的神经磁活动。在学习试验中，由于CS+在消退区的描述，在感觉和顶叶皮层中表现出加速心率(HR)成分的受试者表现出增加的激活。这伴随着消光期间CS+的选择性取向反应(OR)，以HR减速为指标。然而，他们在习得过程中没有表现出任何不同的皮层激活模式。相比之下，在学习过程中没有出现加速性人力资源变化，而是出现非特异性人力资源变化的受试者，其特征是习得区的左眶额区活动更大，但在消失过程中没有表现出不同的SSVEF模式。结果表明，表达不同HR反应的参与者对厌恶条件刺激的刺激驱动神经磁反应模式也存在差异。

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Cognitive Brain Research

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