Saori C. Tanaka

tanakaweb2015

ATR Brain Information Communication Research Lab. Group
Department of Neural Computation for Decision-making (NCD)
Department Head

Contact:
e-mail: xsaori @ atr.jp

Link:
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Biography

Department Head, 2015.9 –
Department of Neural Computation for Decision-making (NCD), ATR Brain Information Communication Research Lab. Group

Senior Researcher, 2015.4 – 2015.9
Researcher, 2014.1 – 2015.3

Department of Cognitive Neuroscience (DCN), ATR Brain Information Communication Research Lab. Group, Japan

Associate Professor, 2012 – 2013
Associate Professor (specially-appointed), 2009 – 2012

Institute of Social and Economic Research, Osaka University, Japan

Researcher, 2007 – 2008
Department of Computational Biology, ATR Brain Information Communication Research Lab. Group

Posdoc fellow, 2006 – 2007
Human Reward Learning Laboratory (John O’Doherty lab)
Division of Humanities and Social Sciences, California Institute of Technology

Ph. D. Candidate, 2003 – 2006
Graduate School of Information Science, Nara Institute of Science and Technology, Japan

Master of Science, 2001 – 2003
Graduate School of Information Science, Nara Institute of Science and Technology, Japan

Bachelor of Science, 1997 – 2001
Department of Physics, Faculty of Science, Osaka University, Japan

 


 

Publication

Journal Paper

2019

  1. Takagi Y, Hirayama JI, Tanaka SC.
    State-unspecific patterns of whole-brain functional connectivity from resting and multiple task states predict stable individual traits.
    NeuroImage  201, 116036. [link]
  2. Yamashita A, Yahata N, Itahashi T, Lisi G, Yamada T, Ichikawa N, Takamura M, Yoshihara Y, Kunimatsu A, Okada N, Yamagata H, Matsuo K, Hashimoto R, Okada G, Sakai Y, Morimoto J, Narumoto J, Shimada Y, Kasai K, Kato N, Takahashi H, Okamoto Y, Tanaka SC, Kawato M, Yamashita O, Imamizu H.
    Harmonization of resting-state functional MRI data across multiple imaging sites via the separation of site differences into sampling bias and measurement bias.
    PLoS biology   17(4), e3000042. [link]

2018

  1. Tanaka SC, Yahata N, Todokoro A, Kawakubo Y, Kano Y, Nishimura Y, Ishii-Takahashi A, Ohtake F & Kasai K.
    Preliminary evidence of altered neural response during intertemporal choice of losses in adult attention-deficit hyperactivity disorder
    Scientific Reports 8, 6703. [link]
  2. Takagi Y, Sakai Y, Abe Y, Nishida S,  Harrison BJ, Martínez-Zalacaín I, Soriano-Mas C, Narumoto J, Tanaka SC.
    A common brain network among state, trait, and pathological anxiety from whole-brain functional connectivity
    NeuroImage 172, pp. 506–516. [link]

2017

  1. Yu Takagi, Yuki Sakai, Giuseppe Lisi, Noriaki Yahata, Yoshinari Abe, Seiji Nishida, Takashi Nakamae, Jun Morimoto, Mitsuo Kawato, Jin Narumoto, Saori C Tanaka
    A Neural Marker of Obsessive-Compulsive Disorder from Whole-Brain Functional Connectivity.
    Scientific Reports 2017 Aug 8; 7,7538. doi: 10.1038/s41598-017-07792-7 [link]

2016

  1. Fermin AS, Yoshida T, Yoshimoto J, Ito M, Tanaka SC, Doya K.
    Model-based action planning involves cortico-cerebellar and basal ganglia networks.
    Sci Rep 2016 Aug 19;6:31378. doi: 10.1038/srep31378.
  2. Tanaka SC, Yamada K, Kitada R, Tanaka S, Sugawara SK, Ohtake F, Sadato N.
    Overstatement in happiness reporting with ordinal, bounded scale.
    Scientific Reports 2016 Feb 18; 6,21321. doi: 10.1038/srep21321. [link]

2014

  1. Tanaka SC, Yamada K, Yoneda H, Ohtake F.
    Neural Mechanisms of Gain–Loss Asymmetry in Temporal Discounting.
    The Journal of Neuroscience 34(16),pp.5595-5602. [link]

2012

  1. Demoto Y, Okada G, Okamoto Y, Kunisato Y, Aoyama S, Onoda K, Munakata A, Nomura M, Tanaka SC, Schweighofer N, Doya K, Yamawaki S.
    Neural and Personality Correlates of Individual Differences Related to the Effects of Acute Tryptophan Depletion on Future Reward Evaluation.
    Neuropsychobiology 65(2),pp.55-64. [link]

2011

  1. Onoda K, Okamoto Y, Kunisato Y, Aoyama S, Shishida K, Okada G, Tanaka SC, Schweighofer N, Yamaguchi S, Doya K, Yamawaki S.
    Inter-individual discount factor differences in reward prediction are topographically associated with caudate activation.
    Experimental Brain Research 212(4),pp.593-601. [link]

2009

  1. Tanaka SC, Shishida K, Schweighofer N, Okamoto Y, Yamawaki S, Doya K,
    Serotonin affects association of aversive outcomes to past actions.
    The Journal of Neuroscience 29(50),pp.15669–74 [link]

2008

  1. Tanaka SC, Balleine BW, O’Doherty JP,
    Calculating Consequences: Brain Systems That Encode the Causal Effects of Actions.
    The Journal of Neuroscience 28(26),pp.6750–6755 [link]
  2. Schweighofer N, Bertin M, Shishida K, Okamoto Y, Tanaka SC, Yamawaki S, Doya K,
    Low-serotonin levels increase delayed reward discounting in humans.
    The Journal of Neuroscience 28(17),pp.4528–32 [link]

2007

  1. Tanaka SC, Schweighofer N, Asahi S, Shishida K, Okamoto Y, Yamawaki S, Doya K.
    Serotonin Differentially Regulates Short- and Long-Term Prediction of Rewards in the Ventral and Dorsal Striatum.
    PLoS ONE 2(12),pp.e1333 [link]
  2. Schweighofer N, Tanaka SC, Doya K.
    Serotonin and the Evaluation of Future Rewards: Theory, Experiments, and Possible Neural Mechanisms.
    Annals of the New York Academy of Science 1104,pp.289-300 [link]

2006

  1. Tanaka SC, Samejima K., Okada G, Ueda K, Okamoto Y, Yamawaki S & Doya K.
    Brain mechanism of reward prediction under predictable and unpredictable environmental dynamics.
    Neural Networks 9(8),pp.1233–1242 [link]
  2. Schweighofer N, Shishida K, Han CE, Okamoto Y, Tanaka SC, Yamawaki S, Doya K.
    Humans can adopt optimal discounting strategy under real-time constraints.
    PLoS Computational Biology 2(11),pp.e152 [link]

2004

  1. Tanaka SC, Doya K, Okada G, Ueda K, Okamoto Y, Yamawaki S,
    Prediction of immediate and future rewards differentially recruits cortico-basal ganglia loops.
    Nature Neuroscience 7(8),pp.887–893 [link]
  2. Tanaka SC, Doya K, Okada G, Ueda K, Okamoto Y, Yamawaki S.
    Different cortico-basal ganglia loops specialize in reward prediction on different time scales.
    Advances in neural information processing systems 16,pp.701-708, MIT Press [link]