Leroux Gaëlle, Joliot Marc, Dubal Stéphanie, Mazoyer Bernard, Tzourio-Mazoyer Nathalie, Houdé Olivier
Groupe d'Imagerie Neurofonctionnelle (GIN), UMR 6194, CNRS, CEA, Universités de Caen et Paris-5, France.
Hum Brain Mapp. 2006 Jun;27(6):498-509. doi: 10.1002/hbm.20194.
We sought to determine whether the neural traces of a previous cognitive developmental stage could be evidenced in young adults. In order to do so, 12 young adults underwent two functional imaging acquisitions (EEG then fMRI). During each session, two experimental conditions were applied: a Piaget-like task with number/length interference (INT), and a reference task with number/length covariation (COV). To succeed at Piaget's numerical task, which children under the age of 7 years usually fail, the subjects had to inhibit a misleading strategy, namely, the visuospatial length-equals-number bias, a quantification heuristic that is often relevant and that continues to be used through adulthood. Behavioral data confirmed that although there was an automation in the young adult subjects as assessed by the very high number of accurate responses (>97%), the inhibition of the "length equals number strategy" had a cognitive cost, as the reaction times were significantly higher in INT than in COV (with a difference of 230 ms). The event-related potential results acquired during the first session showed electrophysiological markers of the cognitive inhibition of the number/length interference. Indeed, the frontal N2 was greater during INT than during COV, and a P3(late)/P6 was detected only during INT. During the fMRI session, a greater activation of unimodal areas (the right middle and superior occipital cortex) and in the ventral route (the left inferior temporal cortex) was observed in INT than in COV. These results seem to indicate that when fully automated in adults, inhibition processes might take place in unimodal areas.
我们试图确定在年轻人中是否能证明先前认知发展阶段的神经痕迹。为了做到这一点,12名年轻人接受了两次功能成像采集(先进行脑电图,然后是功能磁共振成像)。在每个阶段,应用了两种实验条件:一种是具有数字/长度干扰的皮亚杰式任务(INT),以及一种具有数字/长度协变的参考任务(COV)。为了在7岁以下儿童通常会失败的皮亚杰数字任务中取得成功,受试者必须抑制一种误导性策略,即视觉空间长度等于数字偏差,这是一种量化启发式方法,通常是相关的,并且在成年期仍会被使用。行为数据证实,尽管通过非常高的准确反应数量(>97%)评估,年轻成人受试者中存在自动化现象,但抑制“长度等于数字策略”存在认知成本,因为INT中的反应时间明显高于COV(相差230毫秒)。在第一阶段获得的事件相关电位结果显示了对数字/长度干扰进行认知抑制的电生理标记。事实上,INT期间的额叶N2大于COV期间,并且仅在INT期间检测到P3(晚期)/P6。在功能磁共振成像阶段,与COV相比,INT中观察到单峰区域(右侧枕中回和枕上回)和腹侧通路(左侧颞下回)有更大的激活。这些结果似乎表明,当在成年人中完全自动化时,抑制过程可能发生在单峰区域。