Inhibit, switch, and update: A within-subject fMRI investigation of executive control

工作记忆 楔前 心理学 前额叶皮质 神经科学 后顶叶皮质 后扣带 执行职能 背外侧前额叶皮质 顶叶下小叶 扣带回前部 认知心理学 功能磁共振成像 注意力控制 皮质(解剖学) 认知
作者
Sabrina Lemire-Rodger,Jaeger Lam,Joseph D. Viviano,W. Dale Stevens,R. Nathan Spreng,Gary R. Turner
出处
期刊:Neuropsychologia [Elsevier BV]
卷期号:132: 107134-107134 被引量:43
标识
DOI:10.1016/j.neuropsychologia.2019.107134
摘要

An influential model of executive control suggests that it comprises three dissociable processes: working memory, inhibition, and task switching. Multiple studies have investigated how these processes are individually implemented in the human brain. However, few have directly investigated this question using a common task architecture and a within-subject design. Here, healthy adult humans (N = 22) performed a novel executive control task during fMRI scanning. The paradigm independently manipulated working memory updating, inhibition, and task switching demands, while keeping all other task features constant. Direct contrasts of each executive task with a closely matched control condition revealed a differentiated pattern of recruitment across control tasks: working memory was associated with activity in dorsolateral prefrontal, lateral parietal and insular cortices bilaterally; Inhibition engaged right lateral and superior medial prefrontal cortex, inferior parietal lobules bilaterally, right middle and inferior temporal cortex, and ventral visual processing regions; Task switching was associated with bilateral activity in medial prefrontal cortex, posterior cingulate cortex and precuneus, as well as left inferior parietal lobule, lateral temporal cortex and right thalamus. A conjunction of all executive versus control task activations revealed common areas of activation overlapping regions of canonical frontoparietal control and dorsal attention networks. Further, multivariate analyses suggest that working memory may be a putative common factor supporting executive functioning. Taken together, these results are consistent with a hybrid model of executive control in the human brain.

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