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2022
  1. Das J, Forlini C, Porcello DM, Rommelfanger KS, Salles A and Global Neuroethics Summit Delegates (2022) Neuroscience is ready for neuroethics engagement. Front. Commun., 7:909964. doi: 10.3389/fcomm.2022.909964.
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  2. Goda N, Hasegawa T, Koketsu D, Chiken S, Kikuta S, Sano H, Kobayashi K, Nambu A, Sadato N, Fukunaga M (2022) Cerebro-cerebellar interactions in non-human primates examined by optogenetic functional magnetic resonance imaging. Cerebral Cortex Communications, tgac022. doi:10.1093/texcom/tgac022.
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  3. Hashiguchi M, Koike T, Morita T, Harada T, Le Bihan D, Sadato N (2022) Neural substrates of accurate perception of time duration: A functional magnetic resonance imaging study. Neuropsychologia, 166:108145. doi: 10.1016/j.neuropsychologia.2022.108145.
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  4. Ida E. Sønderby, Christopher R. K. Ching, Sophia I. Thomopoulos, Dennis van der Meer Daqiang Sun, Julio E. Villalon‐Reina, Ingrid Agartz, Katrin Amunts, et al. (2022) Effects of copy number variations on brain structure and risk for psychiatric illness: Large‐scale studies from the ENIGMA working groups on CNVs. Hum Brain Mapp.,43(1):300-328. doi: 10.1002/hbm.25354.
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  5. Ito S, Miura K, Miyayama M, Matsumoto J, Fukunaga M, Ishimaru K, Fujimoto M, Yasuda Y, Watanabe Y, Hashimoto R (2022) Association between globus pallidus volume and positive symptoms in schizophrenia. Psychiatry Clin Neurosci., 76(11):602-603. doi: 10.1111/pcn.13465.
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  6. Kasai C, Sumiya M, Koike T, Yoshimoto T, Maki H, Sadato N (2022) Neural underpinning of Japanese particle processing in non-native speakers. Sci Rep., 12(1):18740. doi: 10.1038/s41598-022-23382-8.
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  7. Matsui T, Taki M, Pham TQ, Chikazoe J, Jimura K (2022) Counterfactual explanation of brain activity classifiers using image-to-image transfer by generative adversarial network. Front. Neuroinf., 15:802938. doi: 10.3389/fninf.2021.802938.
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  8. Miyata K, Yamamoto T, Fukunaga M, Sugawara S, Sadato N (2022) Neural correlates with individual differences in temporal prediction during auditory-motor synchronization. Cereb Cortex Commun, 3(2):tgac014. doi: 10.1093/texcom/tgac014.
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  9. Nagashima K, Nakata H, Harada T, Kato I, Sadato N (2022) Differences in the neural networks of thermal sensation with and without evaluation process. IBRO Neuroscience Report;13:274-283. doi: 10.1016/j.ibneur.2022.
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  10. Nakagawa E, Koike T, Sumiya M, Shimada K, Makita K, Yoshida H, Yokokawa H and Sadato N. The Neural Correlates of Semantic and Grammatical Encoding During Sentence Production in a Second Language: Evidence From an fMRI Study Using Structural Priming. Front. Hum. Neurosci,15:753245. doi : 10.3389/fnhum.2021.753245.
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  11. Nakamura NH, Fukunaga M, Yamamoto T, Sadato N, Oku Y (2022) Respiration-timing-dependent changes in activation of neural substrates during cognitive processes. Cerebral Cortex Communications, 3(4):tgac038. doi: 10.1093/texcom/tgac038.
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  12. Nakamura T, Matsui T, Utsumi A, Sumiya M, Nakagawa E, Sadato N (2022) Context-prosody interaction in sarcasm comprehension: A functional magnetic resonance imaging study. Neuropsychologia, 170:108213. doi: 10.1016/j.neuropsychologia.2022.108213.
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  13. Nakayama Y, Sugawara SK, Fukunaga M, Hamano YH, Sadato N, Nishimura Y (2022) The dorsal premotor cortex encodes the step-by-step planning processes for goal-directed motor behavior in humans. NeuroImage, 256:119221. doi: 10.1016/j.neuroimage.2022.119221.
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  14. Nakazawa E, Fukushi T, Tachibana K, Uehara R, Arie F, Akter N, Maruyama M, Morita K, Araki T, Sadato N (2022) The way forward for neuroethics in Japan: A review of five topics surrounding present challenges. Neurosci Res., 183:7-16. doi: 10.1016/j.neures.2022.07.006.
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  15. Sakai H, Harada T, Larroque SK, Demertzi A, Sugawara T, Ito T, Wada Y, Fukunaga M, Sadato N, Laureys S (2022) Left parietal involvement in motion sickness susceptibility revealed by multimodal MRI. Human Brain Mapping, 43(2)1103-1111. doi: 10.1002/hbm.25710.
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  16. The PRIMatE Data and Resource Exchange (PRIME-DRE) Global Collaboration Workshop and Consortium (.., Fukunaga M. et al.) (2022) Toward next-generation primate neuroscience: A collaboration-based strategic plan for integrative neuroimaging. Neuron, 110(1):16-20. doi: 10.1016/j.neuron.2021.10.015.
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  17. Tsumura K, Kosugi K, Hattori Y, Aoki R, Takeda M, Chikazoe J, Nakahara K, Jimura K (2022) Reversible fronto-occipitotemporal signaling complements task encoding and switching under ambiguous cues. Cerebral Cortex, 32(9):1911-1931. doi: 10.1093/cercor/bhab324. doi: 10.1093/cercor/bhab324.
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  18. Yoshimoto T, Okazaki S, Sumiya M, Takahashi HK, Nakagawa E, Koike T, Kitada R, Okamoto S, Nakata M, Yada T, Kosaka H, Sadato N, Chikazoe J (2022) Coexistence of sensory qualities and value representations in human orbitofrontal cortex. Neurosci Res ., 180:48-57. doi: 10.1016/j.neures.2022.02.004.
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  19. Yu Y, Huber L, Yang J, Fukunaga M, Chai Y, Jangraw DC, Chen G, Handwerker DA, Molfese PJ, Ejima Y, Sadato N, Wu J, Bandettini PA (2022) Layer-specific activation in human primary somatosensory cortex during tactile temporal prediction error processing. Neuroimage , 248:118867. doi: 10.1016/j.neuroimage.2021.118867.
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  20. Ebisu T, Fukunaga M, Murase T, Matsuura T, Tomura N, Miyazaki Y, Osaki S, Okada T, Higuchi T, Umeda M. Functional Connectivity Pattern Using Resting-state fMRI as an Assessment Tool for Spatial Neglect during the Recovery Stage of Stroke: A Pilot Study. Magn Reson Med Sci., doi:10.2463/mrms.mp.2022-0010. (in press)
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