8 found
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  1.  9
    Recommendations for Responsible Development and Application of Neurotechnologies.Sara Goering, Eran Klein, Laura Specker Sullivan, Anna Wexler, Blaise Agüera Y. Arcas, Guoqiang Bi, Jose M. Carmena, Joseph J. Fins, Phoebe Friesen, Jack Gallant, Jane E. Huggins, Philipp Kellmeyer, Adam Marblestone, Christine Mitchell, Erik Parens, Michelle Pham, Alan Rubel, Norihiro Sadato, Mina Teicher, David Wasserman, Meredith Whittaker, Jonathan Wolpaw & Rafael Yuste - 2021 - Neuroethics 14 (3):365-386.
    Advancements in novel neurotechnologies, such as brain computer interfaces and neuromodulatory devices such as deep brain stimulators, will have profound implications for society and human rights. While these technologies are improving the diagnosis and treatment of mental and neurological diseases, they can also alter individual agency and estrange those using neurotechnologies from their sense of self, challenging basic notions of what it means to be human. As an international coalition of interdisciplinary scholars and practitioners, we examine these challenges and make (...)
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  2.  13
    Frequency-Specific Network Topologies in the Resting Human Brain.Shuntaro Sasai, Fumitaka Homae, Hama Watanabe, Akihiro T. Sasaki, Hiroki C. Tanabe, Norihiro Sadato & Gentaro Taga - 2014 - Frontiers in Human Neuroscience 8.
  3.  16
    Interpersonal Touch Suppresses Visual Processing of Aversive Stimuli.Hiroaki Kawamichi, Ryo Kitada, Kazufumi Yoshihara, Haruka K. Takahashi & Norihiro Sadato - 2015 - Frontiers in Human Neuroscience 9.
  4.  16
    Involvement of Primary Motor Cortex in Motor Imagery and Mental Practice.Mark Hallett, Jordan Fieldman, Leonardo G. Cohen, Norihiro Sadato & Alvaro Pascual-Leone - 1994 - Behavioral and Brain Sciences 17 (2):210-210.
  5. The Neural Correlates of Semantic and Grammatical Encoding During Sentence Production in a Second Language: Evidence From an fMRI Study Using Structural Priming.Eri Nakagawa, Takahiko Koike, Motofumi Sumiya, Koji Shimada, Kai Makita, Haruyo Yoshida, Hirokazu Yokokawa & Norihiro Sadato - 2022 - Frontiers in Human Neuroscience 15.
    Japanese English learners have difficulty speaking Double Object than Prepositional Object structures which neural underpinning is unknown. In speaking, syntactic and phonological processing follow semantic encoding, conversion of non-verbal mental representation into a structure suitable for expression. To test whether DO difficulty lies in linguistic or prelinguistic process, we conducted functional magnetic resonance imaging. Thirty participants described cartoons using DO or PO, or simply named them. Greater reaction times and error rates indicated DO difficulty. DO compared with PO showed parieto-frontal (...)
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  6.  20
    Pathways of Tactile-Visual Crossmodal Interaction for Perception.Norihiro Sadato, Satoru Nakashita & Daisuke N. Saito - 2007 - Behavioral and Brain Sciences 30 (2):218-219.
    There is a task-specificity in the visual-tactile interaction for perception: The polymodal posterior parietal cortex is related to the comparison of the shapes coded by different sensory modalities, whereas the lateral occipital complex is the part of the network for multimodal shape identification. These interactions may be mediated by some latent pathways potentiated by sensory deprivation or learning.
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  7.  9
    The Brain Mechanisms Underlying the Perception of Pungent Taste of Capsaicin and the Subsequent Autonomic Responses.Shinpei Kawakami, Hajime Sato, Akihiro T. Sasaki, Hiroki C. Tanabe, Yumiko Yoshida, Mitsuru Saito, Hiroki Toyoda, Norihiro Sadato & Youngnam Kang - 2015 - Frontiers in Human Neuroscience 9.
  8.  18
    Emulation of Kinesthesia During Motor Imagery.Norihiro Sadato & Eiichi Naito - 2004 - Behavioral and Brain Sciences 27 (3):412-413.
    Illusory kinesthetic sensation was influenced by motor imagery of the wrist following tendon vibration. The imagery and the illusion conditions commonly activated the contralateral cingulate motor area, supplementary motor area, dorsal premotor cortex, and ipsilateral cerebellum. This supports the notion that motor imagery is a mental rehearsal of movement, during which expected kinesthetic sensation is emulated by recruiting multiple motor areas, commonly activated by pure kinesthesia.
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