岡本 英治

Okamoto Eiji

  • 教授
  • 学位:工学博士

基本情報

所属

  • Undergraduate School of Biological Sciences / Department of Biology
  • Graduate School of Biology / Course of Biology

ジャンル

  • Bioethics
  • Lifestyle-Related Diseases
  • Social Welfare

研究と関連するSDGs

  • Good Health and Well-Being
  • Industry, Innovation and Infrastructure

詳細情報

研究キーワード

  • Artificial Heart
  • Tissue Engineering
  • Biomedical Engineering
  • Artificial organs
  • Information and Commnication Engineering

研究分野

  • Life sciences Respiratory surgery
  • Life sciences Cardiovascular surgery
  • Life sciences Biomaterials
  • Life sciences Biomedical engineering

委員歴

  • Japanese society of rotary blood pump President of 30th annual meating

論文

Development and initial performance of a miniature axial flow blood pump using magnetic fluid shaft seal.

In vitro performance of trans-valve left ventricular assist device installed at aortic valve position.

Shear stress evaluation on blood cells using computational fluid dynamics

Magnetic fluid seals working in liquid environments: Factors limiting their life and solution methods

Development of rear-impeller axial flow blood pump for realization of axial flow blood pump installed at aortic valve position.

Histological investigation of the titanium fiber mesh with one side sealed with non-porous material for its application to the artificial heart system.

Improvement of transcutaneous communication system using intra-body communication for practical use

Journal of artificial organs 2017: The year in review

Journal of artificial organs 2017: The year in review

Journal of artificial organs 2017: The year in review

Journal of artificial organs 2017: The year in review

Measurement of hemodynamic changes with the axial flow blood pump installed in descending aorta

Histological observation of the titanium mesh and application to the artificial heart system

Computational fluid dynamics based design of artificial heart: An axial flow pump as a right ventricular assist device

書籍等出版物

  • Two approaches toward the total artificial heart
  • A high performance controller for a totally implantable assist pump system
  • Endurance of a motor-driven assist pump
  • An intravascular ultrasonic imaging technique for measurement of elastic properties of the artery
  • Development of A Totally Implantable Artificial Heart System.
  • Development of a totally implantable artificial heart system
  • Development of a totally implantable electric assist pupm system
  • Development of a totally implantable electric assist pump system
  • Transcutaneous optical transmission for implantable aetificial hearts
  • Transcutaneous energy transmission for assisted circulation
  • Transcutaneous energy transmission for assisted circulation
  • Development of transcutaneous energy transmission system
  • Development of transcutaneous energy transmission system.
  • Moto-Driven artificail pump

講演?口頭発表等

  • 人体通信を利用した経皮的情報伝送システムの実用化に向けた改良
  • 一般演題II
  • インペラ後部設置式軸流型補助人工心臓のインペラ設計
  • bet36体育投注_bet36体育官网app-在线*开户札幌キャンパスにおける物理教育ー物理の目で見た医学?生物ー
  • インペラ後部設置式軸流型補助人工心臓のポンプ設計
  • Development of axial flow blood pumps that implanted at aortic valve position to realize concept of Valvo Pump
  • 2018年の学術大会に向けて
  • チタンメッシュの組織誘導特性と人工心臓システムへの応用
  • 一面を塞いだチタンメッシュ電極の組織学的?電気的性能評価
  • 大動脈弁位置への設置を目指した軸流型補助人工心臓に関する検討
  • 大動脈弁位置埋込み式軸流型補助人工心臓の実現に向けたポンプ開発
  • 一面を塞いだチタンメッシュの組織誘導特性とその電極特性の評価
  • 一面を塞さいだチタンメッシュ電極の電気的特性と組織誘導特性の検討
  • Development and Improvement of the Miniature Axial Flow Blood Pumps to Realize Concept of the Valvo Pump
  • Hemodynamic Evaluation of Ventricular Support Using the Axial Flow Blood Pump Placed at Descending Aorta
  • 大動脈弁埋込み補助人工心臓を目指した超小型軸流ポンプの試作

所属学会

  • THE SOCIETY OF LIFE SUPPORT ENGINEERING
  • Internal Society for mechanical circulatory support
  • American society of Artificial Internal Organs
  • JAPANESE SOCIETY FOR MEDICAL AND BIOLOGICAL ENGINEERING

共同研究?競争的資金等の研究課題

Basic study of next generation axial flow blood pump to realize minimally invasive ventricular assist device by free-running in aorta

Development of an axial flow blood pump using a hydrodynamic pressure bearing

A Magnetic Fluid-Driven Artificial Heart

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