Nishida Masahiro

• National Institute of Advanced Industrial Science and Technology  Artificial Organ Research Group, Health and Medical Research Institute,    Group Leader
• Tokyo University of Science  Department of Mechanical and Aerospace Engineering, Graduate School pf Science and Technology   Part-time Lecturer

• 2021 - 2024 血液ポンプの溶血低減のための数値流体力学解析による形状最適化方法の確立
• 2018 - 2021 Regulatory science study for a portable hemofiltration system with a small centrifugal pump
• 2015 - 2018 R&D of an axial flow blood pump for pediatric/partial assist use
• 2011 - 2013 R&D of a portable ultrafiltration system with a small centrifugal pump

• Akiko Oota-Ishigaki, Takashi Yamane, Daisuke Sakota, Ryo Kosaka, Osamu Maruyama, Masahiro Nishida. In vitro hemocompatibility investigation for the development of low-flow centrifugal blood pumps with less platelet clogging. INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS. 2022. 45. 4. 431-437
• Akiko Oota-Ishigaki, Osamu Maruyama, Toru Masuzawa, Masahiro Nishida. In vitro investigation of the effect of platelet aggregation ability on the adhesion of platelets to micro-structures. Journal of Biorheology. 2021. 35. 2. 49-56
• Akiko Oota-Ishigaki, Osamu Maruyama, Daisuke Sakota, Ryo Kosaka, Wataru Hijikata, Masahiro Nishida. Quantitative investigation of platelet aggregation under high shear force for anti-platelet aggregation in vitro tests. INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS. 2021. 44. 10. 687-693
• Nobutomo Morita, Daisuke Sakota, Akiko Oota-Ishigaki, Ryo Kosaka, Osamu Maruyama, Masahiro Nishida, Kazuki Kondo, Toshihiro Takeshita, Wataru Iwasaki. Real-time, non-invasive thrombus detection in an extracorporeal circuit using micro-optical thrombus sensors. The International journal of artificial organs. 2021. 44. 8. 565-573
• Takashi Yamane, Kazuki Adachi, Ryo Kosaka, Osamu Maruyama, Masahiro Nishida. Suitable hemolysis index for low-flow rotary blood pumps. JOURNAL OF ARTIFICIAL ORGANS. 2021. 24. 2. 120-125

ｍore...

• 西田正浩. 血液をやさしく流す. 毎日小学生新聞. 2023. 30348. 6-6
• 近藤和樹, 迫田大輔, 小阪亮, 西田正浩, 丸山修. 動圧浮上遠心血液ポンプ内プラズマスキミング現象による軸受部赤血球分離効率の定量. 人工臓器. 2019. 48. 1. 47-47
• 後藤大輝, 西田正浩, 迫田大輔, 小阪亮, 丸山修, 山本好宏, 桑名克之, 百武徹. モノピボット遠心血液ポンプにおけるインペラ出口角がポンプの諸特性に与える影響. 人工臓器. 2018. 47. 1. 42-42
• Masahiro Nishida. Artificial hearts-recent progress: republication of the article published in the Japanese Journal of Artificial Organs. JOURNAL OF ARTIFICIAL ORGANS. 2017. 20. 3. 187-193
• Masahiro Nishida. Computational Fluid Dynamic Analysis of Rotary Blood Pumps [in Japanese]. Journal of Japan Society of Fluid Mechanics. 2017. 36. 4. 249-256

ｍore...

• 技術資料 流体計測法 <改訂版>
  日本機械学会 2022 ISBN:9784888983266
• Vascular engineering : new prospects of vascular medicine and biology with a multidiscipline approach
  Springer 2016 ISBN:9784431548003
• BIOMATERIALS IN ASIA: IN COMMEMORATION OF THE 1ST ASIAN BIOMATERIALS CONGRESS : Tsukuba, Japan, 6-8 December 2007
  WORLD SCIENTIFIC PUBL CO PTE LTD 2008 ISBN:9789812835741
• Heart Replacement: Artificial Heart 7 : The 7th International Symposium on Artificial Hearts and Assist Devices 2000, Tokyo, Japan
  Isis Medical Media 2001 ISBN:1901865363

• Ph.D. (Keio University)

• 2024/04 - 現在 The Japan Society of Mechanical Engineers Representative Member, Member of Planning Committee of the Mechanichal Engineering Congress, Advisory Board of the Bioengineering Division
• 2023/09 - 現在 日本医療研究開発機構 医療機器等の開発・実用化促進のためのガイドライン策定事業 開発ガイダンス策定領域選定 事務局
• 2021/11 - 現在 Japanese Society of Biorheology Board Member & Editor-in-chief of Journal of Japanese Society of Biorheology
• 2021/01 - 現在 Commons for Medicine and Engineering Japan Trustee
• 2015/05 - 現在 Japanese Society for Artificial Organs Trustee

The Visualization Society of Japan ,  The Japan Society of Mechanical Engineers ,  Japanese Society for Artificial Organs ,  Japanese Society of Biorheology ,  Japanese Society For Medical and Biological Engineering ,  American Society for Artificial Internal Organs ,  International Society for Mechanical Circulatory Support ,  Turbomachinery Society of Japan ,  The Society of Life Support Engineering