Asuka HATANO

Lecturer HATANO Asuka

Dept. of Mechanical Engineering, School of Engineering, Univ. of Tokyo
E-Mail: hatano [at] fml.t.u-tokyo.ac.jp

Research History

• 2007.3 Graduated from the Faculty of Engineering, the University of Tokyo
• 2007.4-2009.3 Master Student, Graduate school of Frontier Sciences, the University of Tokyo
• 2009.4-2012.3 Doctoral Student, Graduate school of Frontier Sciences, the University of Tokyo
• 2010.4-2012.3 日本学術振興会 特別研究員 DC2
• 2012.4-2013.3 Project Researcher, Graduate school of Frontier Sciences, the University of Tokyo
• 2013.4-2018.3 Research Associate, Department of Mechanical Engineering, the University of Tokyo
• 2018.3- Lecturer, Department of Mechanical Engineering, the University of Tokyo

Papers

1. A Study on Large Scale Analysis of Cardiomyocyte Coupling Electrical, Chemical and Mechanical Phenomena Based on Triphasic Theory [in Japanese]
   Asuka Hatano, Jun-ichi Okada, Takumi Washio, Toshiaki Hisada and Seiryo Sugiura
   Transactions of the Japanese Society for Medical and Biological Engineering , 79(803):934-949, 2013 (URL)
2. Mitochondrial Colocalization with Ca²⁺ Release Sites is Crucial to Cardiac Metabolism
   Asuka Hatano, Jun-ichi Okada, Takumi Washio, Toshiaki Hisada and Seiryo Sugiura,
   Biophysical Journal, 104(2):496-504, 2013 (URL)
3. Critical role of cardiac t-tubule system for the maintenance of contractile function revealed by a 3D integrated model of cardiomyocytes
   Asuka Hatano, Jun-ichi Okada, Toshiaki Hisada and Seiryo Sugiura
   Journal of Biomechanics. 45(5):815-823, 2012 (URL)
4. A 3-D simulation model of cardiomyocyte integrating excitation-contraction coupling and metabolism
   Asuka Hatano, Jun-ichi Okada, Takumi Washio, Toshiaki Hisada and Seiryo Sugiura
   Biophysical Journal. 101(11):2601-2610, 2011 (URL)
5. A Cardiomyocytee Model Integrating Electrophysiology and Mechanics Based on Triphasic Theory [in Japanese]
   Asuka Hatano, Jun-ichi Okada, Takumi Washio, Toshiaki Hisada and Seiryo Sugiura
   Transactions of the Japanese Society for Medical and Biological Engineering , 50(6):591-598, 2012
6. Juxtaposition of Mitochondria to the Ca²⁺ Release Site is Crucial for the Cardiac Energy Balance -A 3-D Simulation Study of Cardiomyocyte-
   Asuka Hatano, Jun-ichi Okada, Takumi Washio, Toshiaki Hisada and Seiryo Sugiura
   Transactions of the Japanese Society for Medical and Biological Engineering , 49(6):829-835, 2011(URL)

Awards

• Dean’s Prize, Faculty of Engineering, the university of Tokyo, Mar. 2007
• Hatakeyama Prize, the Japan Society of Mechanical Engineers, Mar. 2007
• Dean’s Prize, Department of Human and Engineered Environmental Studies, the university of Tokyo, Mar. 2009
• Kiichi Sagawa Young Investigator’s Award, 1st place, 19th International Conference of the Cardiovascular system dynamics society, Sep. 2010
• Young investigator award in cardiovascular sciences, First Prize, International Academy of Cardiovascular Sciences, Japan Section, Jul. 2011
• Dean’s Prize, Graduate school of Frontier Sciences, the university of Tokyo. Mar. 2012
• Certificate of Merit for Best Presentation,Materials & Mechanics Division, The Japan Society of Mechanical Engineers. Mar. 2014