数字匹配任务中N240成分的数字距离效应。

Numerical distance effect in the N240 component in a number-matching task.

作者信息

Zhou Xinlin, Chen Chuansheng, Dong Qi, Zhang Hongchuan, Chen Chunhui, Qiao Sibing, Zhao Hui, Jiang Ting, Guo Yi

机构信息

State Key Laboratory of Cognitive Neuroscience and Learning, Beijing Normal University, Beijing, China.

出版信息

Neuroreport. 2006 Jul 17;17(10):991-4. doi: 10.1097/01.wnr.0000221840.12632.9f.

DOI:10.1097/01.wnr.0000221840.12632.9f

PMID:16791090

Abstract

The event-related potential technique was used to investigate the time course and scalp-potential topography for the numerical distance effect in a number-matching task. Twenty undergraduates judged whether a number matched or did not match another number presented 1.5 s earlier. Compared with number pairs with a 'small' numerical distance (distance=1), number pairs with a 'large' numerical distance (greater than 2) showed a longer latency and a greater positive amplitude in the N240 component. This numerical distance effect was limited to fronto-central electrodes. These results were discussed in terms of the neural bases of the numerical distance effect during the automatic processing of numbers.

摘要

采用事件相关电位技术研究数字匹配任务中数字距离效应的时间进程和头皮电位地形图。20名本科生判断一个数字是否与1.5秒前呈现的另一个数字匹配。与数字距离“小”（距离 = 1）的数字对相比，数字距离“大”（大于2）的数字对在N240成分中表现出更长的潜伏期和更大的正波幅。这种数字距离效应仅限于额中央电极。根据数字自动加工过程中数字距离效应的神经基础对这些结果进行了讨论。

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数字匹配任务中N240成分的数字距离效应。

Numerical distance effect in the N240 component in a number-matching task.

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