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SHINTANI Seine
Profile
| Title | Senior Assistant Professor |
|---|---|
| Belong to |
Dept. of Biomedical Sciences Center for Clinical Examination Practicum Support Center for Mathematical Science and Artificial Intelligence |
| Graduated | Doctor’s Programs of Advanced Science and Engineering, Faculty of Science and Engineering, Waseda University |
| Degree | Doctor of Science (Waseda Univ.) |
| Academic Institutional Membership | Biophysical Society (America), Japan Biophysics Association, Japan Physiological Society, Japan Time Biology Association, Nano Association |
| Field of Study | Biophysics, physiology |
| Research, Studies | Elucidation of the molecular mechanism of contraction rhythmic homeostasis in warmed cardiomyocytes |
| Curriculum Specialized | Biomechanics, Advanced medical engineering experiments, Introduction to Information Science, Medical engineering practice, Medical engineering, Introduction to biotechnology, Special lecture on biomedical technology, Advanced medical materials engineering |
| Contact | Mail address:shintani[at]isc.chubu.ac.jp |
Academic Papers, Critique
Hyperthermal sarcomeric oscillations generated in warmed cardiomyocytes control amplitudes with chaotic properties while keeping cycles constant. Shintani SA. Biochemical and Biophysical Research Communications, 2022
Does the Hyperthermal Sarcomeric Oscillations Manifested by Body Temperature Support the Periodic Ventricular Dilation With Each Heartbeat? Shintani SA, Frontiers in Physiology, 2022
Drug-Releasing Gelatin Coating Reinforced with Calcium Titanate Formed on Ti–6Al–4V Alloy Designed for Osteoporosis Bone Repair. Yamaguchi S, Akeda K, Shintani SA, Sudo A, Matsushita T, Coatings 2022, 2022
Iodine-Loaded Calcium Titanate for Bone Repair with Sustainable Antibacterial Activity Prepared by Solution and Heat Treatment. Yamaguchi S, Le P, Shintani SA, Takadama H, Ito M, Ferraris S, Spriano S, Nanomaterials, 2021
Effects of high-pressure treatment on the structure and function of myofibrils. Shintani SA, Biophysics and Physicobiology, 2021
Bioactivation Treatment with Mixed Acid and Heat on Titanium Implants Fabricated by Selective Laser Melting Enhances Preosteoblast Cell Differentiation. Le P, Shintani SA, Takadama H, Ito M, Kakutani T, Kitagaki H, Terauchi S, Ueno T, Nakano H, Nakajima Y, Inoue K, Matsushita T, Yamaguchi S, Nanomaterials, 2021
Mechanism of contraction rhythm homeostasis for hyperthermal sarcomeric oscillations of neonatal cardiomyocytes. Shintani SA, Washio T, Higuchi H, Scientific Reports, 2020
Single-cell temperature mapping with fluorescent thermometer nanosheets. Oyama K, Gotoh M, Hosaka Y, Oyama TG, Kubonoya A, Suzuki Y, Arai T, Tsukamoto S, Kawamura Y, Ithoh H, Shintani SA, Yamazawa T, Taguchi M, Ishiwata S, Fukuda N, Journal of General Physiolosy, 2020
Thermal activation of thin filaments in striated muscle. Ishii S, Oyama K, Shintani SA, Kobirumaki-Shimozawa F, Ishiwata S, Fukuda N, Frontiers in Physiology section Striated Muscle Physiology, 2020
Tri-functional calcium-deficient calcium titanate coating on titanium metal by chemical and heat treatment. Yamaguchi S, Le P, Ito M, Shintani SA, Takadama H, Coatings 9, 2019
Effect of myofibril passive elastic properties on the mechanical communication between motor proteins on adjacent sarcomeres. Washio T, Shintani SA, Higuchi H, Sugiura S, Hisada T, Scientific reports, 2019
Microscopic heat pulses activate cardiac thin filaments., Ishii S, Oyama K, Arai T, Itoh H, Shintani SA, Suzuki M, Kobirumaki-Shimozawa F, Terui T, Fukuda N, Ishiwata S., The Journal of general physiology, 2019
Analysis of spontaneous oscillations for a three-state power-stroke model., Washio T, Hisada T, Shintani SA, Higuchi H, Physical review. E 95(2-1) 022411, 2017
Dynamic properties of bio-motile systems as a liquid-crystalline structure., Ishiwata S, Miyazaki M, Sato K, Nakagome K, Shintani SA, Kobirumaki-Shimozawa F, Fukuda N, Suzuki K, Takagi J, Shimamoto Y, Itabashi T, Mol. Cryst. Liq. Cryst 647 127-150, 2017
Simultaneous imaging of local calcium and single sarcomere length in rat neonatal cardiomyocytes using yellow Cameleon-Nano140., Tsukamoto S, Fujii T, Oyama K, Shintani SA, Shimozawa T, Kobirumaki-Shimozawa F, Ishiwata S, Fukuda N, The Journal of general physiology 148(4) 341-355, 2016
Model simulation of the SPOC wave in a bundle of striated myofibrils., Nakagome K, Sato K, Shintani SA, Ishiwata S, Biophysics and physicobiology 13 217-226, 2016
In vivo cardiac nano-imaging: A new technology for high-precision analyses of sarcomere dynamics in the heart., Shimozawa T, Hirokawa E, Kobirumaki-Shimozawa F, Oyama K, Shintani SA, Terui T, Kushida Y, Tsukamoto S, Fujii T, Ishiwata S, Fukuda N, Progress in biophysics and molecular biology, 2016
A Model for Measured Traveling Waves at End-Diastole in Human Heart Wall by Ultrasonic Imaging Method., Bekki N, Shintani SA, Ishiwata S, Kanai H, Jurnal of the Physical Society of Japan, 85, 2016
Simple Dispersion Equation Based on Lamb-Wave Model for Propagating Pulsive Waves in Human Heart Wall., Bekki N and Shintani SA., Journal of the Physical Society of Japan, 84(12) 124802-1-124802-6, 2015
High-frequency sarcomeric auto-oscillations induced by heating in living neonatal cardiomyocytes of the rat., Shintani SA, Oyama K, Fukuda N, Ishiwata S, Biochemical and biophysical research communications 457(2) 165-170, 2015
Cardiac thin filament regulation and the Frank-Starling mechanism., Kobirumaki-Shimozawa F, Inoue T, Shintani SA, Oyama K, Terui T, Minamisawa S, Ishiwata S, Fukuda N, The journal of physiological sciences : JPS 64(4) 221-232, 2014
Sarcomere length nanometry in rat neonatal cardiomyocytes expressed with α-actinin-AcGFP in Z discs., Shintani SA, Oyama K, Kobirumaki-Shimozawa F, Ohki T, Ishiwata S, Fukuda N, The Journal of general physiology 143(4) 513-524, 2014
Microscopic heat pulses induce contraction of cardiomyocytes without calcium transients., Oyama K, Mizuno A, Shintani SA, Itoh H, Serizawa T, Fukuda N, Suzuki M, Ishiwata S, Biochemical and biophysical research communications 417(1) 607-612, 2012
Awards
February 2022 Ministry of Economy, Trade and Industry AI Quest 2nd Term Overall Excellence Award
February 2022 Ministry of Economy, Trade and Industry AI Quest 2nd Term AI Challenge Excellence Award
November 2021 Ministry of Internal Affairs and Communications, INNO-vation Disruptive Challenge Challenger
November 2021 Ministry of Economy, Trade and Industry AI Quest 1st Term AI Challenge Excellence Award
Jul 2017 4th Biophysics and Physicobiology Editors' Choice Award, The Editorial office of Biophysics and Physicobiology Winner: Nakagome K, Sato K, Shintani SA, Ishiwata S.
Nov 2016 JSC Excellent Poster Award, Japanese Society for Chronobiology
