Neural origins of the P300.

Critical reviews in neurobiology Pub Date : 2000-01-01
M Soltani, R T Knight
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Abstract

A review of the literature investigating the neural origins of detection behavior in humans reveals two event-related potential components, P3a and P3b, each with a distinct neural organization and cognitive function.The P3a is involved in automatic novelty detection and characterized by a more anterior cortical distribution, whereas the P3b is concerned with volitional target detection and has a more posterior cortical distribution. Intracranial investigation, studies with patients with focal brain lesions, and functional neuroimaging (fMRI) studies converge with scalp-recorded event-related potential (ERP) data in suggesting that a widespread cortical network gives rise to both automatic and controlled detection behavior. The main regions consistently attributed to generating detection-related brain activation include the temporal-parietal junction, medial temporal complex, and the lateral prefrontal cortex. The extant human and animal literature addressing the neural networks, neuropharmacological underpinnings, and behavioral significance of the P300 potential will be reviewed.

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P300的神经起源。
通过对研究人类检测行为的神经起源的文献回顾,我们发现了两个与事件相关的电位成分P3a和P3b,它们各自具有不同的神经组织和认知功能。P3a参与自动新颖性检测,其特征是更多的前皮质分布,而P3b参与意志目标检测,其特征是更多的后皮质分布。颅内调查、局灶性脑病变患者的研究以及功能性神经成像(fMRI)研究与头皮记录的事件相关电位(ERP)数据一致表明,广泛的皮质网络导致了自动和受控的检测行为。一直被认为产生与探测相关的大脑激活的主要区域包括颞顶叶交界处、内侧颞复合体和外侧前额皮质。现有的人类和动物文献解决神经网络,神经药理学基础,和行为意义的P300电位将进行审查。
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