Nuffield Department of Anaesthetics, University of Oxford, John Radcliffe Hospital, Oxford, UK.
J Neurosci. 2010 Dec 1;30(48):16324-31. doi: 10.1523/JNEUROSCI.2087-10.2010.
The decision as to whether a sensation is perceived as painful does not only depend on sensory input but also on the significance of the stimulus. Here, we show that the degree to which an impending stimulus is interpreted as threatening biases perceptual decisions about pain and that this bias toward pain manifests before stimulus encounter. Using functional magnetic resonance imaging we investigated the neural mechanisms underlying the influence of an experimental manipulation of threat on the perception of laser stimuli as painful. In a near-threshold pain detection paradigm, physically identical stimuli were applied under the participants' assumption that the stimulation is entirely safe (low threat) or potentially harmful (high threat). As hypothesized, significantly more stimuli were rated as painful in the high threat condition. This context-dependent classification of a stimulus as painful was predicted by the prestimulus signal level in the anterior insula, suggesting that this structure integrates information about the significance of a stimulus into the decision about pain. The anticipation of pain increased the prestimulus functional connectivity between the anterior insula and the midcingulate cortex (MCC), a region that was significantly more active during stimulation the more a participant was biased to rate the stimulation as painful under high threat. These findings provide evidence that the anterior insula and MCC as a "salience network" integrate information about the significance of an impending stimulation into perceptual decision-making in the context of pain.
对于一种感觉是否被感知为疼痛,其决定不仅取决于感觉输入,还取决于刺激的意义。在这里,我们表明,即将到来的刺激被解释为威胁的程度会影响对疼痛的感知决策,而且这种对疼痛的偏见在刺激出现之前就表现出来。我们使用功能磁共振成像研究了实验性操纵威胁对激光刺激感知为疼痛的影响的神经机制。在接近阈限的疼痛检测范式中,根据参与者的假设,相同的物理刺激完全安全(低威胁)或可能有害(高威胁)。正如假设的那样,在高威胁条件下,更多的刺激被评为疼痛。这种刺激作为疼痛的上下文分类是由前岛叶的预刺激信号水平预测的,这表明该结构将刺激的意义信息整合到疼痛决策中。对疼痛的预期增加了前岛叶和中扣带皮层(MCC)之间的预刺激功能连接,在高威胁条件下,参与者越倾向于将刺激评为疼痛,MCC 的活动就越明显。这些发现提供了证据,表明前岛叶和 MCC 作为“突显网络”,将即将到来的刺激的意义信息整合到疼痛背景下的感知决策中。