Involvement of the dorsal and ventral attention networks in oddball stimulus processing: A meta‐analysis

怪胎范式 神经科学 心理学 刺激(心理学) 任务正网络 丘脑 神经影像学 感觉系统 刺激形态 大脑定位 认知心理学 认知 默认模式网络 事件相关电位 生物 解剖
作者
Hongkeun Kim
出处
期刊:Human Brain Mapping [Wiley]
卷期号:35 (5): 2265-2284 被引量:226
标识
DOI:10.1002/hbm.22326
摘要

Abstract The aim of this study was to provide the first, comprehensive meta‐analysis of the neuroimaging literature regarding greater neural responses to a deviant stimulus in a stream of repeated, standard stimuli, termed here oddball effects . The meta‐analysis of 75 independent studies included a comparison of auditory and visual oddball effects and task‐relevant and task‐irrelevant oddball effects. The results were interpreted with reference to the model in which a large‐scale dorsal frontoparietal network embodies a mechanism for orienting attention to the environment, whereas a large‐scale ventral frontoparietal network supports the detection of salient, environmental changes. The meta‐analysis yielded three main sets of findings. First, ventral network regions were strongly associated with oddball effects and largely common to auditory and visual modalities, indicating a supramodal “alerting” system. Most ventral network components were more strongly associated with task‐relevant than task‐irrelevant oddball effects, indicating a dynamic interplay of stimulus saliency and internal goals in stimulus‐driven engagement of the network. Second, the bilateral inferior frontal junction, an anterior core of the dorsal network, was strongly associated with oddball effects, suggesting a central role in top‐down attentional control. However, other dorsal network regions showed no or only modest association with oddball effects, likely reflecting active engagement during both oddball and standard stimulus processing. Finally, prominent oddball effects outside the two networks included the sensory cortex regions, likely reflecting attentive and preattentive modulation of early sensory activity, and subcortical regions involving the putamen, thalamus, and other areas, likely reflecting subcortical involvement in alerting responses. Hum Brain Mapp 35:2265–2284, 2014 . © 2013 Wiley Periodicals, Inc .
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