T
Takashi Nakao
Researcher at Hiroshima University
Publications - 68
Citations - 1292
Takashi Nakao is an academic researcher from Hiroshima University. The author has contributed to research in topics: Resting state fMRI & Anterior cingulate cortex. The author has an hindex of 16, co-authored 61 publications receiving 1051 citations. Previous affiliations of Takashi Nakao include Japan Society for the Promotion of Science & University of Ottawa.
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Rest-stimulus interaction in the brain: a review.
TL;DR: It is concluded that a better understanding of the rest-stimulus interaction is likely to be crucial to the elucidation of the brain's contribution to mental states.
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Compensatory cortical activation during performance of an attention task by patients with diffuse axonal injury: a functional magnetic resonance imaging study
TL;DR: Patients with pure DAI require compensatory activation of the contralateral (right) prefrontal region to carry out activities similar to healthy controls, providing further evidence for the adaptive capacity of neuronal systems and brain plasticity during the recovery stages of DAI.
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Distinction between Externally vs. Internally Guided Decision-Making: Operational Differences, Meta-Analytical Comparisons and Their Theoretical Implications.
TL;DR: It is suggested that studying only externally guided decision- making under uncertainty is insufficient to account for decision-making processes in the brain, and the neural network used predominantly for internally guided decision -making differs from that for externally guided Decision-making under uncertainty.
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The temporal signature of self: Temporal measures of resting-state EEG predict self-consciousness.
Annemarie Wolff,Daniel A. Di Giovanni,Javier Gomez-Pilar,Takashi Nakao,Zirui Huang,André Longtin,Georg Northoff,Georg Northoff +7 more
TL;DR: The results support the hypothesis that self‐related information is temporally contained in the brain's resting state and can thus be featured by a temporal signature.
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Resting-state EEG power predicts conflict-related brain activity in internally guided but not in externally guided decision-making.
TL;DR: Estimating the degree to which the type of external stimulus modulates the conflict during stimulus encoding varies according to individual differences in intrinsic brain activity is demonstrated.