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史 蕭逸

Shi, Shoi

国際統合睡眠医科学研究機構 , 助教/主任研究員
International Institute for Integrative Sleep Medicine

https://wpi-iiis.tsukuba.ac.jp/japanese/research/member/detail/%e5%8f%b2-%e8%95%ad%e9%80%b8/

オープンアクセス版の論文は「つくばリポジトリ」で読むことができます。
  1. 1. Artificial Intelligence-Based Video Assessment of Neonatal State. Monami Nishio; Naohisa Takeda; Ryutaro Miyata; Yushi Ito (+2 著者) Yuka Wada
      JAMA network open 8: e2455948 (2025)
  2. 2. Prefrontal synaptic regulation of homeostatic sleep pressure revealed through synaptic chemogenetics. Takeshi Sawada; Yusuke Iino; Kensuke Yoshida; Hitoshi Okazaki (+11 著者) Shoi Shi
      Science (New York, N.Y.) 385: 1459 (2024) Semantic Scholar
  3. 3. Cortical parvalbumin neurons are responsible for homeostatic sleep rebound through CaMKII activation. Kazuhiro Kon; Koji L Ode; Tomoyuki Mano; Hiroshi Fujishima (+16 著者) Hiroki R Ueda
      Nature communications 15: 6054 (2024) Semantic Scholar
  4. 4. "KAIZEN" method realizing implementation of deep-learning models for COVID-19 CT diagnosis in real world hospitals. Naoki Okada; Yutaka Umemura; Shoi Shi; Shusuke Inoue (+23 著者) Satoshi Fujimi
      Scientific reports 14: 1672 (2024) Semantic Scholar
  5. 5. Post-synaptic competition between calcineurin and PKA regulates mammalian sleep-wake cycles Yimeng Wang; Siyu Cao; Daisuke Tone; Hiroshi Fujishima (+11 著者) Hiroki R. Ueda
      Nature 636: 412 (2023) Semantic Scholar
  6. 6. Impact of airline network on the global importation risk of mpox, 2022. Ryo Kinoshita; Miho Sassa; Shogo Otake; Fumi Yoshimatsu (+3 著者) Daisuke Yoneoka
      Epidemiology and infection 151: e60 (2023) Semantic Scholar
  7. 7. SIK3–HDAC4 in the suprachiasmatic nucleus regulates the timing of arousal at the dark onset and circadian period in mice Fuyuki Asano; Staci J. Kim; Tomoyuki Fujiyama; Chika Miyoshi (+11 著者) Masashi Yanagisawa
      Proceedings of the National Academy of Sciences 120: (2023) Semantic Scholar
  8. 8. Distinct phosphorylation states of mammalian CaMKIIβ control the induction and maintenance of sleep Daisuke Tone; Koji L. Ode; Qianhui Zhang; Hiroshi Fujishima (+17 著者) Hiroki R. Ueda
      PLOS Biology 20: e3001813 (2022) Semantic Scholar
  9. 9. Estimating Infection-Related Human Mobility Networks Based on Time Series Data of COVID-19 Infection in Japan Tetsuya Yamada; Shoi Shi
      Applied Sciences (2022)
  10. 10. The 103,200-arm acceleration dataset in the UK Biobank revealed a landscape of human sleep phenotypes Machiko Katori*; Shoi Shi*; Koji L. Ode; Yasuhiro TomitaHiroki R. Ueda
      Proceedings of the National Academy of Sciences 119: e2116729119 (2022) Semantic Scholar
  11. 11. A design principle of spindle oscillations in mammalian sleep. Tetsuya Yamada*; Shoi Shi*; Hiroki R Ueda
      iScience 25: 103873 (2022) Semantic Scholar
  12. 12. A jerk-based algorithm ACCEL for the accurate classification of sleep-wake states from arm acceleration. Koji L Ode*; Shoi Shi*; Machiko Katori*; Kentaro Mitsui (+3 著者) Hiroki R Ueda
      iScience 25: 103727 (2022) Semantic Scholar
  13. 13. Identification of optimum combinations of media channels for approaching COVID-19 vaccine unsure and unwilling groups in Japan. Daisuke Yoneoka; Akifumi Eguchi; Shuhei Nomura; Takayuki Kawashima (+11 著者) Hiroaki Miyata
      The Lancet regional health. Western Pacific 18: 100330 (2022) Semantic Scholar
  14. 14. Reduced mortality during the COVID-19 outbreak in Japan, 2020: a two-stage interrupted time-series design. Daisuke Onozuka; Yuta Tanoue; Shuhei Nomura; Takayuki Kawashima (+20 著者) Masahiro Hashizume
      International journal of epidemiology 51: 75 (2021) Semantic Scholar
  15. 15. Realization of phosphorylation hypothesis of sleep by mammalian CaMKIIβ Daisuke Tone; Koji L. Ode; Qianhui Zhang; Hiroshi Fujishima (+16 著者) Hiroki R. Ueda
      (2021) Semantic Scholar
  16. 16. Reasons for being unsure or unwilling regarding intention to take COVID-19 vaccine among Japanese people: A large cross-sectional national survey Shuhei Nomura; Akifumi Eguchi; Daisuke Yoneoka; Takayuki Kawashima (+11 著者) Hiroaki Miyata
      The Lancet Regional Health - Western Pacific 14: 100223 (2021) Semantic Scholar
  17. 17. Effect of emergency declaration on mental health during the COVID-19 pandemic in Japan: A social network service-based difference-in-differences approach Akifumi Eguchi; Daisuke Yoneoka; Shoi Shi; Yuta Tanoue (+8 著者) Hiroaki Miyata
      Science Progress 104: 003685042110297 (2021) Semantic Scholar
  18. 18. CUBIC-Cloud provides an integrative computational framework toward community-driven whole-mouse-brain mapping Tomoyuki Mano; Ken Murata; Kazuhiro Kon; Chika Shimizu (+6 著者) Hiroki R. Ueda
      Cell Reports Methods 1: 100038 (2021) Semantic Scholar
  19. 19. Trends in Healthcare Access in Japan during the First Wave of the COVID-19 Pandemic, up to June 2020. Koji Makiyama; Takayuki Kawashima; Shuhei Nomura; Akifumi Eguchi (+8 著者) Masahiro Hashizume
      International journal of environmental research and public health 18: (2021) Semantic Scholar
  20. 20. Whole-organ analysis of TGF-β-mediated remodelling of the tumour microenvironment by tissue clearing. Shimpei I Kubota; Kei Takahashi; Tomoyuki Mano; Katsuhiko Matsumoto (+5 著者) Kohei Miyazono
      Communications biology 4: 294 (2021) Semantic Scholar
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書籍等出版物情報はまだありません。

  1. 1. 数理と実験で挑む睡眠の謎 史蕭逸
    異分野融合研究セミナー 2024年12月13日 招待有り
  2. 2. 社会昆虫を用いた後天的な睡眠表現型変化の機序の理解 史蕭逸
    極限環境適応 2024 2024年11月19日 招待有り
  3. 3. Interdisciplinary Approaches to Unraveling the Mysteries of Sleep
    TARA Seminar 2024年11月19日 招待有り
  4. 4. Understanding the flexibility of sleep from ant
    the 12th annual meeting of Japan Society for Developmental Neuroscience 2024年11月18日 招待有り
  5. 5. Synaptic strength in prefrontal cortex regulates homeostatic sleep pressure
    Harvard Molecular Biology Seminar 2024年10月4日 招待有り
  6. 6. Understanding the robustness and flexibility of sleep through comparative neuroscience
    the joint meeting of JSSR and JSC 2024年9月16日 招待有り
  7. 7. Synaptic strength in prefrontal cortex regulates homeostatic sleep pressure
    LIFE 2024 2024年9月14日 招待有り
  8. 8. Synaptic strength in prefrontal cortex regulates homeostatic sleep pressure
    Cold Spring Harbor Asia 2024年9月10日 招待有り
  9. 9. Synaptic strength in prefrontal cortex regulates homeostatic sleep pressure
    NIBS Symposium 2024年9月6日 招待有り
  10. 10. Synaptic Strength in Prefrontal Cortex Regulates Homeostatic Sleep Need
    Tsukuba Brain Science Seminar 2024年7月25日 招待有り
  11. 11. Synaptic Strength in Prefrontal Cortex Regulates Homeostatic Sleep Pressure
    the 48th Annual Meeting of Japanese Society of Sleep Research 2024年7月19日 招待有り
  12. 12. Interdisciplinary Approaches in Basic and Clinical Research
    CanNRT Research Forum 2024年5月8日 招待有り
  13. 13. Deciphering the Mystery of Sleep: the insights from comparative neuroscience
    Translational seminar 2024年5月7日 招待有り
  14. 14. Deciphering the Mystery of Sleep: the insights from comparative neuroscience
    Cortex Club 2024年4月30日 招待有り
  15. 15. Synaptic Strength in Prefrontal Cortex Regulates Homeostatic Sleep Need
    MxW Summit 2024 2024年4月9日 招待有り
  16. 16. Deciphering the Mystery of Sleep: the insights from comparative neuroscience
    ONOS Seminar Series 2023年7月21日 招待有り
  17. 17. Deciphering the Mystery of Sleep: the insights from comparative neuroscience
    Neurotuscany conference 2023年6月19日 招待有り
  18. 18. Big data analysis revealed a landscape of human sleep phenotypes
    NEURO2022 2022年6月30日 招待有り
  19. 19. Ca2+-dependent/independent hyperpolarization pathways in sleep regulation
    Congress of Asian Society of Sleep Medicine 2021年3月7日 招待有り
  20. 20. Application of tissue-clearing method in sleep research
    The 3rd morphogenesis workshop 2020年3月7日 招待有り
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