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Original Papers

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Preprints

  1. Niida M., Haruki Y., Imai F., & Ogawa K. (2023) Neural substrates of top-down processing during perceptual duration-based timing and beat-based timing, bioRxiv, https://doi.org/10.1101/2023.06.06.543032 → ☑️published: https://doi.org/10.1007/s00221-023-06665-y
  2. Yamagata T., Ichikawa K., Mizutori S., Haruki Y., & Ogawa K. (2023) Are people less susceptible to the illusory sense of ownership over a fake hand if they can accurately perceive heartbeats?, PsyArXiv, doi: 10.31234/osf.io/rey4p → ☑️published: https://doi.org/10.1038/s41598-023-43990-2
  3. Haruki Y. & Ogawa K. (2022) Cardiac and gastric interoception have distinct neural substrates, bioRxiv, https://doi.org/10.1101/2022.02.18.480981 ******→ ☑️published: https://doi.org/10.1523/ENEURO.0157-22.2023
  4. Sonobe Y*., Yamagata T*., Yang H., Haruki Y., & Ogawa K. (2022) Supramodal representation of the sense of body ownership in the human parieto-premotor and extrastriate cortices, bioRxiv, https://doi.org/10.1101/2022.08.28.502233 (*Equal contribution) → ☑️published: https://doi.org/10.1523/ENEURO.0332-22.2023
  5. Ogawa K. & Matsuyama Y. (2022) Heterogeneity of social cognition in temporo-parietal junction: Overlapping yet distinct representation between visual perspective-taking and theory of mind, bioRxiv, https://doi.org/10.1101/2022.01.04.474884 → ☑️published: https://doi.org/10.1016/j.neulet.2023.137267
  6. Haruki Y. & Ogawa K. (2021) Disrupted interoception by auditory distractor: Difficulty inferring the internal bodily states?, PsyArXiv, doi: 10.31234/osf.io/2t754 → ☑️published: https://doi.org/10.1016/j.neures.2023.11.002
  7. Ohata R., Ogawa K., & Imamizu H. (2021) Neural basis for adaptive motor behavior during car driving, bioRxiv, https://doi.org/10.1101/2021.10.03.462866 ☑️published: https://doi.org/10.3389/fnhum.2022.788729

Refereed Papers

  1. 🆕Shibata H. & Ogawa K. (2024) Role of the left inferior frontal gyrus in transforming format types of action descriptions between stimuli and representations, Journal of Neurolinguistics, 71, 101191, https://doi.org/10.1016/j.jneuroling.2024.101191
  2. Haruki Y. & Ogawa K. (2023) Disrupted interoception by auditory distractor: Difficulty inferring the internal bodily states?, Neuroscience Research, https://doi.org/10.1016/j.neures.2023.11.002
  3. Yamagata T., Ichikawa K., Mizutori S., Haruki Y., & Ogawa K. (2023) Revisiting the relationship between illusory hand ownership induced by visuotactile synchrony and cardiac interoceptive accuracy, Scientific Reports, https://doi.org/10.1038/s41598-023-43990-2
  4. Niida M., Haruki Y., Imai F., & Ogawa K. (2023) Neural substrates of top-down processing during perceptual duration-based timing and beat-based timing, Experimental Brain Research, https://doi.org/10.1007/s00221-023-06665-y
  5. Ogawa K. & Matsuyama Y. (2023) Heterogeneity of social cognition between visual perspective-taking and theory of mind in the temporo-parietal junction, Neuroscience Letters, 807, 137267, https://doi.org/10.1016/j.neulet.2023.137267
  6. Sonobe Y*., Yamagata T*., Yang H., Haruki Y., & Ogawa K. (2023) Supramodal representation of the sense of body ownership in the human parieto-premotor and extrastriate cortices, eNeuro, ENEURO.0332-22.2023, https://doi.org/10.1523/ENEURO.0332-22.2023 (*Equal contribution)
  7. Haruki Y. & Ogawa K. (2023) Cardiac and Gastric Interoceptive Awareness Have Distinct Neural Substrates, eNeuro, ENEURO.0157-22.2023, https://doi.org/10.1523/ENEURO.0157-22.2023
  8. Yang Y., Yang H., Imai F., & Ogawa K. (2023) Distinct neural representations of hand movement direction between motor imagery and execution in the presupplementary motor area, Neuroscience Research, 191, 57-65, https://doi.org/10.1016/j.neures.2023.01.001
  9. Yang H. & Ogawa K. (2022) Decoding of Motor Imagery Involving Whole-body Coordination, Neuroscience, 501(1), 131-142, https://doi.org/10.1016/j.neuroscience.2022.07.029
  10. Ohata R., Ogawa K., & Imamizu H. (2022) Neuroimaging examination of driving mode switching corresponding to changes in the driving environment, Frontiers in Human Neuroscience, https://doi.org/10.3389/fnhum.2022.788729
  11. Haruki Y. & Ogawa K. (2021) Role of anatomical insular subdivisions in interoception: interoceptive attention and accuracy have dissociable substrates, European Journal of Neuroscience, 53(8):2669-2680. https://doi.org/10.1111/ejn.15157
  12. Yang H., Hu Z., Imai F., Yang Y., & Ogawa K. (2021) Effects of neurofeedback on the activities of motor-related areas by using motor execution and imagery, Neuroscience Letters, 746:135653. https://doi.org/10.1016/j.neulet.2021.135653
  13. Ohata R., Asai T., Kadota H., Shigemasu H., Ogawa K., & Imamizu H. (2020) Sense of agency beyond sensorimotor process: Decoding self-other action attribution in the human brain, Cerebral Cortex, 30(7), 4076–4091. https://doi.org/10.1093/cercor/bhaa028
  14. Iwabuchi, Ohba M., Ogawa K., & Inui T. (2020) Incongruence of grammatical subjects activates brain regions involved in perspective taking in a sentence-sentence verification task, Journal of Neurolinguistics. 55, 2020.100893. https://doi.org/10.1016/j.jneuroling.2020.100893
  15. Hu Z., Yang H., Yang Y., Nishida S., Madden C., Ventre-Dominey J., Dominey PF., & Ogawa K. (2019) Common neural system for sentence and picture comprehension across languages: a Chinese–Japanese bilingual study, Frontiers in Human Neuroscience, 13:380. https://doi.org/10.3389/fnhum.2019.00380
  16. Ogawa K., Mitsui K., Imai F., & Nishida S. (2019) Long-term training-dependent representation of individual finger movements in the primary motor cortex, Neuroimage, 202:116051. https://doi.org/10.1016/j.neuroimage.2019.116051
  17. Shibata H. & Ogawa K. (2018) Dorsal premotor cortex is related to recognition of verbal and visual descriptions of actions in the first-person perspective, Neuroscience Letters, 687(20), 71-76. https://doi.org/10.1016/j.neulet.2018.09.025
  18. Cai C., Ogawa K., Kochiyama T., Tanaka H., & Imamizu H. (2018) Temporal recalibration of motor and visual potentials in lag adaptation in voluntary movement, Neuroimage, 172, 654–662. https://doi.org/10.1016/j.neuroimage.2018.02.015
  19. Mealier AL., Pointeau G., Mirliaz S., Ogawa K., Finlayson M., & Dominey PF. (2017) Narrative constructions for the organization of self experience: proof of concept via embodied robotics, Frontiers in Psychology, 1331. https://doi.org/10.3389/fpsyg.2017.01331
  20. Nabata R., & Ogawa K. (2017) Do eidetikers have higher visuo-spatial memory abilities? , Japanese Psychological Research (in Japanese) , 88(3), 260-266. https://doi.org/10.4992/jjpsy.88.16315
  21. Ogawa K., & Imai F. (2016) Hand-independent representation of tool-use pantomimes in the left anterior intraparietal cortex, Experimental Brain Research, 234(12), 3677-3687. https://doi.org/10.1007/s00221-016-4765-7
  22. Ohata R., Ogawa K., & Imamizu H. (2016) Single-trial prediction of reaction time variability from MEG brain activity, Scientific Reports, 6, 27416. https://doi.org/10.1038/srep27416
  23. Murata A., Saito H., Schug J., Ogawa K., & Kameda T. (2016) Spontaneous facial mimicry is enhanced by the goal of inferring emotional states: evidence for moderation of “automatic” mimicry by higher cognitive processes. PLoS ONE, 11(4), e0153128. https://doi.org/10.1371/journal.pone.0153128
  24. Kim S*., Ogawa K.*, Lv J., Schweighofer N., & Imamizu H. (2015) Neural substrates related to motor memory with multiple timescales in sensorimotor adaptation, PLoS Biology, 13(12): e1002312. (*Equal contribution) https://doi.org/10.1371/journal.pbio.1002312 [Press release]
  25. Ogawa K. & Imamizu H. (2013) Human sensorimotor cortex represents conflicting visuomotor mappings. Journal of Neuroscience, 33(15), 6412-6422. https://doi.org/10.1523/jneurosci.4661-12.2013
  26. Shibata H., Inui T., & Ogawa K. (2013) Role of the dorsolateral prefrontal cortex in understanding hand actions performed in social contexts: An fMRI study. Neuroreport, 24(14), 803-807. https://doi.org/10.1097/wnr.0b013e3283646287
  27. Iwabuchi T., Inui T., Ohba M., & Ogawa K. (2013) An fMRI study of a picture-sentence verification task: evidence of attention shift to the grammatical subject. Neuroreport, 24(6), 298-302. https://doi.org/10.1097/wnr.0b013e32835f8826
  28. Ogawa K. & Inui T. (2012) Multiple neural representations of object-directed action in an imitative context. Experimental Brain Research, 216(1), 61-69. https://doi.org/10.1007/s00221-011-2908-4
  29. Ogawa K. & Inui T. (2012) Reference frame of human medial intraparietal cortex in visually guided movements. Journal of Cognitive Neuroscience, 24(1), 171-182. https://doi.org/10.1162/jocn_a_00132
  30. Shibata H., Inui T. & Ogawa K. (2011) Understanding interpersonal action coordination: An fMRI study. Experimental Brain Research, 211(3-4), 569-579. https://doi.org/10.1007/s00221-011-2648-5
  31. Ogawa K. & Inui T. (2011) Neural representation of observed actions in the parietal and premotor cortex. Neuroimage, 56(2), 728-735. https://doi.org/10.1016/j.neuroimage.2010.10.043
  32. Ogawa K. & Inui T. (2009) The role of the posterior parietal cortex in drawing by copying. Neuropsychologia, 47(4), 1013-1022. https://doi.org/10.1016/j.neuropsychologia.2008.10.022
  33. Ogawa K., Inui T. & Ohba M. (2008) Syntactic processing of complex sentences in left lateral premotor cortex. Neuroreport, 19(8), 811-815. https://doi.org/10.1097/wnr.0b013e3282ffda89
  34. Ogawa K. & Inui T. (2007) Lateralization of posterior parietal cortex for internal monitoring of self- versus externally generated movements. Journal of Cognitive Neuroscience, 19(11), 1827-1835. https://doi.org/10.1162/jocn.2007.19.11.1827
  35. Ogawa K., Ohba M. & Inui T. (2007) Neural basis of syntactic processing of simple sentences in Japanese. Neuroreport, 18(14), 1437-1441. https://doi.org/10.1097/wnr.0b013e3282e9a87c
  36. Ogawa K., Inui T., & Sugio T. (2007) Neural correlates of state estimation in visually guided movements: an event-related fMRI study. Cortex, 43(3), 289-300. https://doi.org/10.1016/s0010-9452(08)70455-6
  37. Inui T., Ogawa K., & Ohba M. (2007) Role of left inferior frontal gyrus in the processing of particles in Japanese. Neuroreport, 18(5), 431-434. https://doi.org/10.1097/wnr.0b013e32805dfb7e
  38. Ogawa K., Inui T., & Sugio T. (2006) Separating brain regions involved in internally guided and visual feedback control of moving effectors: an event-related fMRI study. Neuroimage, 32(4), 1760-1770. https://doi.org/10.1016/j.neuroimage.2006.05.012
  39. Sugio T., Ogawa K., & Inui T. (2004) Neural correlates of semantic effects on grasping familiar objects. Neuroreport, 14(18), 2297-2301. https://doi.org/10.1097/00001756-200312190-00002

Review Papers

  1. 小川健二 (2017) 心理学研究のツールとしての脳イメージングの最前線. イメージ心理学研究, 15, 13-17. [pdf]
  2. 小川健二 (2014) ミラーシステムと社会認知ネットワーク. 神経心理学会誌, 30(4), 277─283. [論文]
  3. 小川健二 (2011) fMRIマルチボクセルパターン分析. 神経心理学会誌, 27(1), 28-34. [論文]
  4. Ogawa K., Nagai C., & Inui T. (2010) Brain mechanisms of visuomotor transformation based on deficits in tracing and copying. Japanese Psychological Research, 52(2), 92-106. [Article]
  5. 乾敏郎, 永井千代子, 小川健二 (2010) 認知発達の神経基盤(2)-生後9ヶ月から2歳まで-. 心理学評論, 53(2), 169-195. [論文]
  6. 乾敏郎, 小川健二 (2009), 認知発達の神経基盤(1)-生後8ヶ月まで-. 心理学評論, 52(4), 578-610. [論文]

Books

  1. 心理学概論アップデート: 古典とその後の研究から学ぶ日常にいきる心理学」中澤 潤 (監修), 坂本 真士 (監修), 天谷 祐子 (編集), 小川 健二 (編集), 古川 洋和 (編集), 2024, ミネルヴァ書房: 第1章 心と脳

    心理学概論アップデート: 古典とその後の研究から学ぶ日常にいきる心理学

  2. 有斐閣 現代心理学辞典」子安 増生 (監修), 丹野 義彦 (監修), 箱田 裕司 (監修), 2021, 有斐閣: アイオワギャンブル課題、機能結合、顕著性ネットワーク、スモール・ワールド・ネットワーク、中央実行ネットワーク、ニューロフィードバック、脳磁図、ノード/リンク、バイオフィードバック、ハブ、分子イメージング、ミラーニューロン/ミラーシステム、有効結合

    有斐閣 現代心理学辞典

  3. 時を編む人間」 田山忠行 (著, 編集), 北大文学研究科ライブラリ, 2015, 北海道大学出版会: 第二章:学習する脳と時間

    時を編む人間 (北大文学研究科ライブラリ)

  4. 認知心理学ハンドブック」日本認知心理学(編), 2013, 有斐閣: 認知神経科学

    認知心理学ハンドブック (有斐閣ブックス)

  5. 感覚・知覚・認識の基礎」乾敏郎(監修) 電子情報通信学会(編), 2012, オーム社 [Web版]: 身体のイメージ

    感覚・知覚・認知の基礎 (現代電子情報通信選書―知識の森)

  6. 高次脳機能障害Q&A基礎編」河村満(編), 2011, 新興医学出版社: fMRIの理屈について,わかりやすく教えてください

    高次脳機能障害Q&A 基礎編

  7. よくわかる認知科学」乾敏郎, 川口潤, 吉川左紀子(編),2 010 , ミネルヴァ書房: ミラーシステム、道具使用の学習、運動の予測のメカニズム

    よくわかる認知科学 (やわらかアカデミズム・わかるシリーズ)