Rchr

J-GLOBAL ID：200901074016292399 Update date: Jan. 31, 2024

Ando Joji

アンドウジヨウジ | Ando Joji

Affiliation and department：
Job title： Professor
Homepage URL (1)： http://square.umin.ac.jp/~vascbiol/

Research field (5)： Cardiology , Clinical pharmacy , Physiology , Biomaterials , Biomedical engineering

Research keywords (11)：レオロジー , バイオメカニクス , 力学応答 , 血流 , 血管 , shear stress 内皮細胞 , biorheology , biomechanics , mechanotransduction , endothelial cell , shear stress

Research theme for competitive and other funds (49)：

2021 - 2024 Mitochondria-mediated blood flow mechanosensing in endothelial cells
2019 - 2021 Bioenergetics of vascular endothelial mitochondria in response to blood flow stimuli
2018 - 2021 Blood flow-sensing mechanisms via lipid molecules in endothelial plasma membranes
2015 - 2017 A new in vitro research model for intracranial aneurysm to bridge the gap between biology and flow dynamics
2013 - 2016 Mechanoresponses of endothelial cell membranes to fluid shear stress

2014 - 2016 血管細胞における血流のメカノトランスダクション機構

2009 - 2014 血管細胞における力学応答の分子バイオメカニクス

2010 - 2012 Blood-flow-mediated mechanotransduction in vascular endothelial cells

2009 - 2009 内皮細胞における血流刺激のメカノトランスダクション機構の解明

2007 - 2009 Shear-stress-induced molecular dynamics of endothelial cell membrane

2005 - 2009 Biomechanical force-sensing and response mechanisms in vascular cells and its application to tissue engineering

2006 - 2008 Ion channel-mediated blood flow-sensing mechanism in vascular endothelial cells

2004 - 2006 Generating blood-flow-sensing-molecule-deficient mice and analysis of their physiological functions

2003 - 2005 Mechano-sensing Mechanism and Mechano-Responsive Genes in Vascular Endothelial Cells

2001 - 2002 Exploration of blood flow-sensing molecules in vascular endothelial cells

1999 - 2002 単一細胞機能評価の新手法

1999 - 2002 Supervision of the Research of Single-cell Molecular Technology

2001 - 2001 生体分子・細胞の力学応答と組織再構築のマイクロバイオメカニクス

2001 - 2001 「脳の形成」と「生活習慣病予防」に運動が必要なわけを探る-個体の運動解析モデルと細胞による運動解析モデルの開発-

1999 - 2000 DEVELOPMENT OF INTRAVITAL LASER MICROSCOPE FOR VISUALIZATION OF MICROVASCULAR PO_2 DISTRIBUTION

1999 - 2000 Elucidation of the mechanism of vascular cell sensing and gene responses to mechanical stresses

1998 - 2000 CONTROL OF BIOLOGICAL PROCESSES BY STRONG MAGNETIC FIELDS

1997 - 2000 Effects of hemodynamic forces on pulmonary hypertension in congenital heart diseases

1997 - 2000 Molecular Mechanism of Atherosclerosis

1998 - 1999 Study on Mechanisms of Angiogenesis Induced by Blood Flow using in vivo Experimental Model

1997 - 1998 Analysis of Anigogenesis and Shear-Mismatching Response Based on Endothelial Cell Biomechanics

1996 - 1998 Cloning of shear stress-sensitive endothelial genes

1995 - 1996 CLONING OF MECHANOSENSITIVE RECEPTORS

1995 - 1996 A Bio-Engineering Approach to Endothelial Cell Signal Transduction and Responses to Fluid Shear Stress

1993 - 1995 A Bio-Engineering Research on the Sensing and Responding Mechanism of Vascular Endothelial Cells to Blood Flow

1994 - 1994 メカノトランスダクションの分子機構

1994 - 1994 血管内皮・平滑筋細胞の物理的刺激に対する反応に関する生体工学的研究

1993 - 1994 DEVELOPMENT OF INTRAVITAL LASER MICROSCOPE FOR THE OBSERVATION OF OXYGEN DISTRIBUTION

1991 - 1994 Bio-engineering study on the mechanism of endothelial cell responses to blood flow

1993 - 1993 血流と血管内皮・平滑筋細胞の相互作用に関する分子生物学的・生体工学的研究

1993 - 1993 血管内皮・平滑筋細胞の物理的刺激に対する反応に関する生体工学的研究

1992 - 1992 血流と血管内皮・平滑筋細胞の相互作用に関する分子生物学的・生体工学的研究

1990 - 1992 培養血管内皮細胞の老化に関する分子生物学的・生体工学的解析

1990 - 1992 A study on Non-invasive Multifunctional Measurements of Circulatry Parameters Using Bio-electrical and Photo-plethysmography Techniques

1991 - 1991 血流と血管内皮・平滑筋細胞の相互作用に関する分子生物学的・生体工学的研究

1989 - 1990 Development of a New Ambulatory Monitoring System for Indirect Beat-to-Beat Arterial Blood Pressure Using the Volume-compensation Method

1989 - 1990 Molecular Biological and Bio-Engineering Study of Blood Flow-Sensing and Responding Mechanism of Vascular Endothelial Cells.

1986 - 1987 Development of a new compact centrifugal blood pump system for extracorporeal circulation and its application

1985 - 1985 細胞培養法を用いた血管壁細胞に対する血行力学的応力の作用に関する研究

細胞組織工学に関する研究

動脈硬化の分子機序に関する研究

Study on cellular tissue engineering

Study on molecular mechanism for atherogenesis

Study on vascular cell biomechanics

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Papers (95)：

Kimiko Yamamoto, Yuji Shimogonya, Ryohei Maeno, Kenshiroh Kawabe, Joji Ando. Endothelial cells differentially sense laminar and disturbed flows by altering the lipid order of their plasma and mitochondrial membranes. American Journal of Physiology-Cell Physiology. 2023
Joji Ando, Kimiko Yamamoto. Hemodynamic Forces, Endothelial Mechanotransduction, and Vascular Diseases. Magnetic resonance in medical sciences : MRMS : an official journal of Japan Society of Magnetic Resonance in Medicine. 2022. 21. 2. 258-266
Kimiko Yamamoto, Yoshitsugu Nogimori, Hiromi Imamura, Joji Ando. Shear stress activates mitochondrial oxidative phosphorylation by reducing plasma membrane cholesterol in vascular endothelial cells. Proceedings of the National Academy of Sciences. 2020. 117. 52. 33660-33667
安藤譲二, 山本希美子. 【MRIで読み解く心臓と脈管:流れと機能】内皮細胞の血流応答異常が血管病変を招く. 臨床画像. 2020. 36. 1. 4-12
Miyuki Fukuda, Shunichi Fukuda, Joji Ando, Kimiko Yamamoto, Naohiro Yonemoto, Takashi Suzuki, Youko Niwa, Takayuki Inoue, Noriko Satoh-Asahara, Koji Hasegawa, et al. Disruption of P2X4 purinoceptor and suppression of the inflammation associated with cerebral aneurysm formation. Journal of Neurosurgery. 2019. 1-13

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MISC (130)：

安藤譲二, 山本希美子. 生命機能を支えるメカノセンシング循環系のメカノセンシング. 血管医学. 2016. 17. 3. 315-324
Shear stress sensing. 2016. 257. 10. 1008-1014
Kimiko Yamamoto, Joji Ando. Caveolar membrane lipid order affects ATP-mediated shear stress mechanotransduction in vascular endothelial cells. PURINERGIC SIGNALLING. 2014. 10. 4. 801-801
Y. Suzuki, K. Yamamoto, J. Ando, K. Matsumoto, T. Matsuda. Arterial shear stress accelerates the differentiation of endothelial progenitor cells adhered on VEGF-bound surface. JOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE. 2012. 6. 241-241
Yamamoto Kimiko, ANDO Joji. 8F15 Endothelial mechanotransduction of shear stress and its role in he control of vascular functions. 2012. 2012. 24. "8F15-1"-"8F15-2"

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Books (4)：

Flow-induced endothelial gene regulation
In"Mechanical Forces and the Endothelium", Harwood Academic Publishers, London 1999
Flow-induced endothelial gene regulation
Mechanical Forces and the Endothelium 1999
シェアストレスと内皮細胞
メディカルレビュー社 1996
Shear Stress and Vascular Endothelial Cells
Medical Review Company 1996

Professional career (1)：

Medical Doctor (Hokkaido University)

Work history (1)：

2009 - 現在 Dokkyo Medical University School of Medicine, School of Medicine

Committee career (5)：

2015 - 日本バイオレオロジー学会名誉顧問
2015 - 日本微小循環学会評議員
2014 - 日本脈管学会特別会員
1999 - 日本血管細胞生物学会名誉会員
1995 - 日本エム・イー学会名誉会員

Awards (1)：

2013 - 日本バイオレオロジー学会岡小天賞

Association Membership(s) (8)：

日本バイオレオロジー学会 , 日本内科学会 , 米国生理学会 , 日本脈管学会 , 日本微小循環学会 , 日本血管細胞生物学会 , 日本循環器学会 , 日本エム・イー学会

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