Chaordic Homeodynamics: The Periodic Chaos Phenomenon Observed at the Sarcomere Level and Its Physiological Significance. Seine A. Shintani. Biochemical and Biophysical Research Communications 760: 151712 (2025). DOI 10.1016/j.bbrc.2025.151712 ▶詳細ページ
Mechanical, Bioactive, and Long‑Lasting Antibacterial Properties of a Ti Scaffold with Gradient Pores Releasing Iodine Ions. Mahmoud Gallab, Phuc Thi Minh Le, Seine A. Shintani, Hiroaki Takadama, Morihiro Ito, Hisashi Kitagaki, Tomiharu Matsushita, Shintaro Honda, Yaichiro Okuzu, Shunsuke Fujibayashi, Seiji Yamaguchi. Biomaterials Advances 158: 213781 (2024). DOI 10.1016/j.bioadv.2024.213781 ▶詳細ページ
Observation of Sarcomere Chaos Induced by Changes in Calcium Concentration in Cardiomyocytes. Seine A. Shintani. Biophysics and Physicobiology 21(1): e210006 (2024). DOI 10.2142/biophysico.bppb‑v21.0006 ▶詳細ページ
Hole Behavior Captured by Analysis of Instantaneous Amplitude and Phase of Sarcosynced Oscillations Reveals Wave Characteristics of Sarcomeric Oscillations. Seine A. Shintani. Biochemical and Biophysical Research Communications 691: 149339 (2024). DOI 10.1016/j.bbrc.2023.149339 ▶詳細ページ
Real‑Time Scanning Electron Microscopy of Unfixed Tissue in Solution Using a Deformable and Electron‑Transmissive Film. Seine A. Shintani, Seiji Yamaguchi, Hiroaki Takadama. Microscopy 71(5): 297‑301 (2022). DOI 10.1093/jmicro/dfac030 ▶詳細ページ
Hyperthermal Sarcomeric Oscillations Generated in Warmed Cardiomyocytes Control Amplitudes with Chaotic Properties While Keeping Cycles Constant. Seine A. Shintani. Biochemical and Biophysical Research Communications 611: 8‑13 (2022). DOI 10.1016/j.bbrc.2022.04.055 ▶詳細ページ
Does the Hyperthermal Sarcomeric Oscillations Manifested by Body Temperature Support the Periodic Ventricular Dilation with Each Heartbeat? Seine A. Shintani. Frontiers in Physiology 13: 846206 (2022). DOI 10.3389/fphys.2022.846206 ▶詳細ページ
Drug‑Releasing Gelatin Coating Reinforced with Calcium Titanate Formed on Ti‑6Al‑4V Alloy Designed for Osteoporosis Bone Repair. Seiji Yamaguchi, Koji Akeda, Seine A. Shintani, Akihiro Sudo, Tomiharu Matsushita. Coatings 12(2): 139 (2022). DOI 10.3390/coatings12020139 ▶詳細ページ
Changes in the Structure and Function of Myofibrils during Pressurization Using a High‑Pressure Microscope. Seine A. Shintani. J‑STAGE Data (2021). DOI 10.2142/biophysico.bppb‑v18.010 ▶詳細ページ
Iodine‑Loaded Calcium Titanate for Bone Repair with Sustainable Antibacterial Activity Prepared by Solution and Heat Treatment. Seiji Yamaguchi, Phuc Thi Minh Le, Seine A. Shintani, Hiroaki Takadama, Morihiro Ito, Sara Ferraris, Silvia Spriano. Nanomaterials 11(9): 2199 (2021). DOI 10.3390/nano11092199 ▶詳細ページ
Bioactivation Treatment with Mixed Acid and Heat on Titanium Implants Fabricated by Selective Laser Melting Enhances Preosteoblast Cell Differentiation. Phuc Thi Minh Le, Seine A. Shintani, Hiroaki Takadama, Morihiro Ito, Tatsuya Kakutani, Hisashi Kitagaki, Shuntaro Terauchi, Takaaki Ueno, Hiroyuki Nakano, Yoichiro Nakajima, Kazuya Inoue, Tomiharu Matsushita, Seiji Yamaguchi. Nanomaterials 11(4): 987 (2021). DOI 10.3390/nano11040987 ▶詳細ページ
Effects of High‑Pressure Treatment on the Structure and Function of Myofibrils. Seine A. Shintani. Biophysics and Physicobiology 18: 85‑95 (2021). DOI 10.2142/biophysico.bppb‑v18.010 ▶詳細ページ
Mechanism of Contraction Rhythm Homeostasis for Hyperthermal Sarcomeric Oscillations of Neonatal Cardiomyocytes. Seine A. Shintani, Takumi Washio, Hideo Higuchi. Scientific Reports 10(1): 20468 (2020). DOI 10.1038/s41598‑020‑77443‑x ▶詳細ページ
Single‑Cell Temperature Mapping with Fluorescent Thermometer Nanosheets. Kotaro Oyama, Mizuho Gotoh, Yuji Hosaka, Tomoko G. Oyama, Aya Kubonoya, Yuma Suzuki, Tomomi Arai, Seiichi Tsukamoto, Yuki Kawamura, Hideki Itoh, Seine A. Shintani, Toshiko Yamazawa, Mitsumasa Taguchi, Shin’ichi Ishiwata, Norio Fukuda. Journal of General Physiology 152(8): e201912469 (2020). DOI 10.1085/jgp.201912469 ▶詳細ページ
Thermal Activation of Thin Filaments in Striated Muscle. Shuya Ishii, Kotaro Oyama, Seine A. Shintani, Fuyu Kobirumaki‑Shimozawa, Shin’ichi Ishiwata, Norio Fukuda. Frontiers in Physiology 11: 278 (2020). DOI 10.3389/fphys.2020.00278 ▶詳細ページ
Tri‑Functional Calcium‑Deficient Calcium Titanate Coating on Titanium Metal by Chemical and Heat Treatment. Seiji Yamaguchi, Phuc Thi Minh Le, Morihiro Ito, Seine A. Shintani, Hiroaki Takadama. Coatings 9(9): 561 (2019). DOI 10.3390/coatings9090561 ▶詳細ページ
Effect of Myofibril Passive Elastic Properties on the Mechanical Communication between Motor Proteins on Adjacent Sarcomeres. Takumi Washio, Seine A. Shintani, Hideo Higuchi, Seiryo Sugiura, Toshiaki Hisada. Scientific Reports 9(1): 9355 (2019). DOI 10.1038/s41598‑019‑45772‑1 ▶詳細ページ
Microscopic Heat Pulses Activate Cardiac Thin Filaments. Shuya Ishii, Kotaro Oyama, Tomomi Arai, Hideki Itoh, Seine A. Shintani, Madoka Suzuki, Fuyu Kobirumaki‑Shimozawa, Takako Terui, Norio Fukuda, Shin’ichi Ishiwata. Journal of General Physiology 151(6): 860‑869 (2019). DOI 10.1085/jgp.201812243 ▶詳細ページ
In Vivo Cardiac Nano‑Imaging: A New Technology for High‑Precision Analyses of Sarcomere Dynamics in the Heart. Togo Shimozawa, Erisa Hirokawa, Fuyu Kobirumaki‑Shimozawa, Kotaro Oyama, Seine A. Shintani, Takako Terui, Yasuharu Kushida, Seiichi Tsukamoto, Teruyuki Fujii, Shin’ichi Ishiwata, Norio Fukuda. Progress in Biophysics and Molecular Biology 124: 31‑40 (2017). DOI 10.1016/j.pbiomolbio.2016.09.006 ▶詳細ページ
Analysis of Spontaneous Oscillations for a Three‑State Power‑Stroke Model. Takumi Washio, Toshiaki Hisada, Seine A. Shintani, Hideo Higuchi. Physical Review E 95(2): 022411 (2017). DOI 10.1103/PhysRevE.95.022411 ▶詳細ページ
Dynamic Properties of Bio‑Motile Systems with a Liquid‑Crystalline Structure. Shin’ichi Ishiwata, Makito Miyazaki, Katsuhiko Sato, Koutaro Nakagome, Seine A. Shintani, Fuyu Kobirumaki‑Shimozawa, Norio Fukuda, Kazuya Suzuki, Jun Takagi, Yuta Shimamoto, Takeshi Itabashi. Molecular Crystals and Liquid Crystals 647(1): 127‑150 (2017). DOI 10.1080/15421406.2017.1289445 ▶詳細ページ
Simultaneous Imaging of Local Calcium and Single Sarcomere Length in Rat Neonatal Cardiomyocytes Using Yellow Cameleon‑Nano140. Seiichi Tsukamoto, Teruyuki Fujii, Kotaro Oyama, Seine A. Shintani, Togo Shimozawa, Fuyu Kobirumaki‑Shimozawa, Shin’ichi Ishiwata, Norio Fukuda. Journal of General Physiology 148(4): 341‑355 (2016). DOI 10.1085/jgp.201611604 ▶詳細ページ
Model Simulation of the SPOC Wave in a Bundle of Striated Myofibrils. Koutaro Nakagome, Katsuhiko Sato, Seine A. Shintani, Shin’ichi Ishiwata. Biophysics and Physicobiology 13: 217‑226 (2016). DOI 10.2142/biophysico.13.217 ▶詳細ページ
A Model for Measured Traveling Waves at End‑Diastole in Human Heart Wall by Ultrasonic Imaging Method. Naoaki Bekki, Seine A. Shintani, Shin’ichi Ishiwata, Hiroshi Kanai. Journal of the Physical Society of Japan 85(4): 044802 (2016). DOI 10.7566/JPSJ.85.044802 ▶詳細ページ
High‑Frequency Sarcomeric Auto‑Oscillations Induced by Heating in Living Neonatal Cardiomyocytes of the Rat. Seine A. Shintani, Kotaro Oyama, Norio Fukuda, Shin’ichi Ishiwata. Biochemical and Biophysical Research Communications 457(2): 165‑170 (2015). DOI 10.1016/j.bbrc.2014.12.077 ▶詳細ページ
Simple Dispersion Equation Based on Lamb‑Wave Model for Propagating Pulsive Waves in Human Heart Wall. Naoaki Bekki, Seine A. Shintani. Journal of the Physical Society of Japan 84(12): 124802 (2015). DOI 10.7566/JPSJ.84.124802 ▶詳細ページ
Cardiac Thin Filament Regulation and the Frank‑Starling Mechanism. Fuyu Kobirumaki‑Shimozawa, Takahiro Inoue, Seine A. Shintani, Kotaro Oyama, Takako Terui, Susumu Minamisawa, Shin’ichi Ishiwata, Norio Fukuda. Journal of Physiological Sciences 64(4): 221‑232 (2014). DOI 10.1007/s12576‑014‑0314‑y ▶詳細ページ
Sarcomere Length Nanometry in Rat Neonatal Cardiomyocytes Expressed with α‑Actinin‑AcGFP in Z Discs. Seine A. Shintani, Kotaro Oyama, Fuyu Kobirumaki‑Shimozawa, Takashi Ohki, Shin’ichi Ishiwata, Norio Fukuda. Journal of General Physiology 143(4): 513‑524 (2014). DOI 10.1085/jgp.201311118 ▶詳細ページ
Microscopic Heat Pulses Induce Contraction of Cardiomyocytes without Calcium Transients. Kotaro Oyama, Akari Mizuno, Seine A. Shintani, Hideki Itoh, Takahiro Serizawa, Norio Fukuda, Madoka Suzuki, Shin’ichi Ishiwata. Biochemical and Biophysical Research Communications 417(1): 607‑612 (2012). DOI 10.1016/j.bbrc.2011.12.015 ▶詳細ページ
AI to Learn (AI2L): Guidelines and Practice for Human‑Centered AI Utilization as a Learning Support Tool—Four Pillars of Black‑Box Elimination, Accountability, Information Protection, and Energy Efficiency. Seine A. Shintani. Jxiv [v1] (2025). DOI 10.51094/jxiv 1435 ▶詳細ページ
心筋細胞内サルコメアのカオス的振動はカルシウム変動が引き起こす. 新谷正嶺. 日本生理学雑誌 87(1): 9‑10 (2025).
生きた臓器細胞や生物の構造と「動き」を電子顕微鏡でそのまま観察する技術を開発. 新谷正嶺. 日本生理学雑誌 84(4): 89‑90 (2022).
温められた心筋は安定性と不安定性を併せ持った収縮リズムを刻む. 新谷正嶺. 日本生理学雑誌 84(4): 88 (2022).
温めた心筋細胞では安定性と不安定性を併せ持ったサルコメア収縮リズムが顕在化する. 新谷正嶺. 時間生物学 28(2) (2022).
温めた心筋細胞で顕在化する収縮リズム恒常性. 新谷正嶺. 日本細胞生物学会大会講演要旨集 73回 WS10‑1 (2021).
生命医科学系の学生のための Python 言語と SymPy ライブラリを用いた数式処理入門. 新谷正嶺. 中部大学生命健康科学研究所紀要 17: 16‑23 (2021).
心筋拍動の恒常性の発見と拍動を再現する数理モデル開発—心臓が体温で安定かつ効率的な心拍リズムを刻むメカニズムの解明—. 新谷正嶺, 樋口秀男. 日本生理学雑誌 83(1): 2 (2021).
注目対象の動きと状態を計測する汎用アルゴリズムの開発—深層学習による定量科学研究の可能性—. 新谷正嶺. 中部大学生命健康科学研究所紀要 14: 45‑49 (2018).
温めた心筋細胞に備わった収縮リズム周期安定化の仕組み. 新谷正嶺. 国士舘大学紀要 情報科学 38: 37‑39 (2017).
レイリー・ラム方程式の心室中隔壁への応用. Bekki Naoaki, Shintani Seine A. 国士舘大学紀要 情報科学 37: 38‑47 (2016).
サルコメアレベルの筋収縮と筋肉の動き. 新谷正嶺, Bekki Naoaki, Ishiwata Shin’ichi. 国士舘大学紀要 情報科学 36: 56‑60 (2015).
心室中隔壁上の非線形波動. Bekki Naoaki, Shintani Seine A., Ishiwata Shin’ichi. 国士舘大学紀要 情報科学 36: 61‑66 (2015).