Department of Neurology, Otto-von-Guericke University, 39120 Magdeburg, Germany.
Leibniz Institute for Neurobiology, 39118 Magdeburg, Germany, and.
J Neurosci. 2018 May 16;38(20):4738-4748. doi: 10.1523/JNEUROSCI.2407-17.2018. Epub 2018 Apr 24.
In visual search, the more one knows about a target, the faster one can find it. Surprisingly, target identification is also faster with knowledge about distractor-features. The latter is paradoxical, as it implies that to avoid the selection of an item, the item must somehow be selected to some degree. This conundrum has been termed the "ignoring paradox", and, to date, little is known about how the brain resolves it. Here, in data from four experiments using neuromagnetic brain recordings in male and female humans, we provide evidence that this paradox is resolved by giving distracting information priority in cortical processing. This attentional priority to distractors manifests as an enhanced early neuromagnetic index, which occurs before target-related processing, and regardless of distractor predictability. It is most pronounced on trials for which a response rapidly occurred, and is followed by a suppression of the distracting information. These observations together suggest that in visual search items cannot be ignored without first being selected. How can we ignore distracting stimuli in our environment? To do this successfully, a logical hypothesis is that as few neural resources as possible should be devoted to distractor processing. Yet, to avoid devoting resources to a distractor, the brain must somehow mark what to avoid; this is a philosophical problem, which has been termed the "ignoring paradox" or "white bear phenomenon". Here, we use MEG recordings to determine how the human brain resolves this paradox. Our data show that distractors are not only processed, they are given temporal priority, with the brain building a robust representation of the to-be-ignored items. Thus, successful suppression of distractors can only be achieved if distractors are first strongly neurally represented.
在视觉搜索中,一个人对目标了解得越多,就能够越快地找到它。令人惊讶的是,即使是关于干扰特征的知识,也能更快地识别目标。后者自相矛盾,因为这意味着要避免选择一个项目,该项目必须在某种程度上被选择。这个难题被称为“忽略悖论”,迄今为止,人们对大脑如何解决这个问题知之甚少。在这里,在使用男性和女性人类的脑磁图记录进行的四项实验中,我们提供了证据表明,大脑通过在皮质处理中优先考虑干扰信息来解决这个悖论。这种对干扰物的注意力优先表现为一个增强的早期脑磁图指数,它发生在目标相关处理之前,并且与干扰物的可预测性无关。在快速做出反应的试验中,这种现象最为明显,随后会对干扰信息进行抑制。这些观察结果表明,在视觉搜索中,项目不能在不首先被选择的情况下被忽略。我们如何在环境中忽略分散注意力的刺激?为了成功做到这一点,一个合乎逻辑的假设是,尽可能少地投入神经资源用于处理干扰物。然而,为了避免将资源用于干扰物,大脑必须以某种方式标记要避免的东西;这是一个哲学问题,被称为“忽略悖论”或“白熊现象”。在这里,我们使用 MEG 记录来确定人类大脑如何解决这个悖论。我们的数据表明,干扰物不仅被处理,而且还被赋予了时间优先级,大脑构建了对要忽略的项目的强大表示。因此,只有在干扰物首先被强烈地神经表示的情况下,才能成功地抑制干扰物。