Rchr
J-GLOBAL ID:201801004091433854
Update date: Oct. 31, 2024
Hyakutake Toru
ヒャクタケ トオル | Hyakutake Toru
Affiliation and department:
Job title:
Associate Professor
Research field (3):
Fluid engineering
, Biomaterials
, Biomedical engineering
Research theme for competitive and other funds (10):
- 2021 - 2024 受精環境下における精子ナビゲーション戦略の解明と体外受精への応用
- 2018 - 2022 Biomechanics of collective sperm swimming as active matter and its application to analysis of morphological evolution
- 2018 - 2022 Development of motile sperm separation device considering dynamic environment of oviduct
- 2014 - 2017 Effects of whole body vibration on cancer-induced bone destruction
- 2014 - 2016 Study on motion behaviours of mammalian sperm in actual oviduct and novel development for morphological evolutionary dynamics
- 2011 - 2013 酸素放出過程を含めた微小血管レベルでのナノ粒子人工赤血球の流動ダイナミクス
- 2009 - 2010 Numerical Study on Transport Process of Liposome-encapsulated Hemoglobin in Microvascular Flow with Considering Erythrocyte Aggregation
- 2005 - 2007 Study on Gas Mixture in Micro Channel
- 2003 - 2004 Analysis of flow characteristics through micro and nano channels with adsorbates.
- 2000 - 2002 Control of fluid flow properties by the solid surface formation in a molecular scale
Show all
Papers (88):
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Toru Hyakutake, Daisuke Higashiyama, Tomoka Tsuchiya. Prediction of sperm motion behavior in microfluidic channel using sperm swimming model. Journal of Biomechanics. 2024
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Study on the Partitioning Properties of Hemoglobin-Based Oxygen Carriers in Capillary Networks. 2023. 31. 1. 59-68
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Toru Hyakutake, Yuya Tsutsumi, Yohei Miyoshi, Manabu Yasui, Tomoki Mizuno, Mizuki Tateno. Red Blood Cell Partitioning Using a Microfluidic Channel with Ladder Structure. Micromachines. 2023
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Hyakutake Toru. Study on Flow Properties and Oxygen Transport of Hemoglobin-based Oxygen Carriers through Microvessels. MEMBRANE. 2022. 47. 5. 257-262
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Toru Hyakutake, Hiroki Abe, Yohei Miyoshi, Manabu Yasui, Rina Suzuki, Shunto Tsurumaki, Yuya Tsutsumi. In vitro study on the partitioning of red blood cells using a microchannel network. Microvascular research. 2022. 140. 104281-104281
more...
MISC (129):
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西田正浩, 小椋長征, 迫田大輔, 小阪亮, 山根隆志, 丸山修, 百武徹, 山本好宏, 桑名克之. 矩形断面流路をもつインペラの出口角と断面積が遠心血液ポンプの諸特性に与える影響. 日本バイオレオロジー学会誌(Web). 2020. 34. 2
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西田正浩, 小椋長征, 迫田大輔, 小阪亮, 山根隆志, 丸山修, 百武徹, 山本好宏, 桑名克之. 数値流体力学解析による連続流血液ポンプの溶血推定値の算定法の検討. 人工臓器(日本人工臓器学会). 2020. 49. 2
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西田正浩, 小椋長征, 迫田大輔, 小阪亮, 山根隆志, 丸山修, 百武徹, 山本好宏, 桑名克之. 3Dプリンタを用いた遠心血液ポンプの試作方法に対する検討. 日本バイオレオロジー学会誌(Web). 2019. 33. 2
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小椋長征, 西田正浩, 迫田大輔, 小阪亮, 丸山修, 山本好弘, 桑名克之, 百武徹. 遠心血液ポンプにおけるインペラの吐出角がポンプの諸特性に与える影響. 人工臓器(日本人工臓器学会). 2019. 48. 2
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西田正浩, 小椋長征, 迫田大輔, 小阪亮, 山根隆志, 丸山修, 百武徹, 山本好宏, 桑名克之. Prototype manufacturing method of a monopivot centrifugal blood pump using 3D printer. バイオエンジニアリング講演会講演論文集(CD-ROM). 2019. 32nd
more...
Books (2):
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流体力学
森北出版株式会社 2017 ISBN:4627675712
-
乱流のシミュレーション-LESによる数値計算と可視化
森北出版株式会社 2010 ISBN:9784627673311
Education (3):
- - 2001 Kyushu University Graduate School, Division of Engineering
- - 1998 Kyushu University Graduate School, Division of Engineering
- - 1996 Kyushu University Faculty of Engineering
Awards (1):
- 2008/04 - 日本流体力学会 第1回FDR賞
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