ホーム > 史蕭逸/ Shi, Shoi

史蕭逸

Shi, Shoi

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

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. From Sleep Homeostasis to Cellular Constraints in Neurons Shoi Shi
Neuroscience Research (2026) Semantic Scholar
2. Predicting mutation-rate variation across the genome using epigenetic data Machiko Katori; Tetsuya J. Kobayashi; Magnus Nordborg; Shoi Shi
(2026) Semantic Scholar
3. A framework to determine active neurons and networks within the mouse brain reveals how brain activity changes over the course of the day. Guanhua Sun; Tomoyuki Mano; Shoi Shi; Alvin Li (+6 著者) Daniel B Forger
PLoS biology 23: e3003472 (2025) Semantic Scholar
4. Bridging the gap between community health workers' digital health acceptance and actual usage in Uganda: Exploring key external factors based on technology acceptance model. Miiro Chraish; Chisato Oyama; Yuma Aoki; Ddembe Andrew (+2 著者) Hiromu Yakura
PLOS digital health 4: e0001099 (2025) Semantic Scholar
5. Frontal synaptic plasticity: A new key to homeostatic sleep regulation. Yusuke Iino; Shoi Shi
Neural regeneration research (2025) Semantic Scholar
6. 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) Semantic Scholar
7. 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
8. 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
9. STGram: Non-Invasive Visualization and Analysis of Circadian Rhythms Through Surface Temperature Monitoring Shoi Shi; Tohru Natsume
(2024) Semantic Scholar
10. "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
11. A Framework to Determine Active Connectivity within the Mouse Brain Guanhua Sun; Tomoyuki Mano; Shoi Shi; Alvin Li (+5 著者) Daniel Forger
(2023) Semantic Scholar
12. 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
13. 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
14. 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
15. 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
16. Estimating Infection-Related Human Mobility Networks Based on Time Series Data of COVID-19 Infection in Japan Tetsuya Yamada; Shoi Shi
Applied Sciences (2022)
17. 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
18. A design principle of spindle oscillations in mammalian sleep. Tetsuya Yamada*; Shoi Shi*; Hiroki R Ueda
iScience 25: 103873 (2022) Semantic Scholar
19. 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
20. 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

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書籍等出版物情報はまだありません。

41. The impairments of Ca2+-dependent hyperpolarization pathway altered NREM sleep duration in mice 昆一弘; 史蕭逸; 上田泰己
18th WORLD CONGRESS OF BASIC AND CLINICAL PHARMACOLOGY 2018年7月4日
42. Leak potassium channels regulate sleep duration, Gordon Research Conference on Sleep Regulation and Function 吉田健祐; 史蕭逸; 上田泰己
Gordon Research Conference on Sleep Regulation and Function 2018年3月21日
43. A potential pharmacological target of insomnia: the molecules involved in the Ca2+-dependent hyperpolarization pathways play a pivotal role in the regulation of sleep homeostasis 史蕭逸; 上田泰己
World Sleep 2017 2017年10月11日
44. The role of Ca2+-dependent hyperpolarization pathway underlying sleep-duration regulation 史蕭逸; 上田泰己
The 5th Annual IIIS Symposium 2016年12月12日
45. Involvement of Ca2+-dependent hyperpolarization in sleep duration in mammals 史蕭逸; 上田泰己
23th Congress of the European Sleep Research Society 2016年9月15日
46. The role of Ca2+-dependent hyperpolarization pathway underlying sleep homeostasis 史蕭逸; 上田泰己
30th The International College of Neuropsychopharmacology World Congress of Neuropsychopharmacology 2016年7月4日