Publication | Miyata Laboratory

Academic paper

R Nishi, Y Oda, T Morikura, S Miyata,. “Effect of Compressive Stress in Tumor Microenvironment on Malignant Tumor Spheroid Invasion Process”, International Journal of Molecular Sciences, Vol.23(13), pp7091(2022)
N Nakata, Y Ishibashi, S Miyata,. “Efficient Cell Impedance Measurement by Dielectrophoretic Cell Accumulation and Evaluation of Chondrogenic Phenotypes”, Micromachines (2022)
Yamamoto M., Miyata S,. “Influences of Microscopic Imaging Conditions on Accuracy of Cell Morphology Discrimination Using Convolutional Neural Network of Deep Learning”, Micromachines, Vol.13(5),(2022)
Kiryo T., Takahashi Y., Miyata S., “Purification of pluripotent embryonic stem cells using dielectrophoresis and a flow control system”, Engineering in Life Sciences, Vol.22(5), pp417 – 426(2022)
Imashiro C., Ida Y., Miyata S., Komotori J., “Titanium culture vessel capable of controlling culture temperature for evaluation of cell thermotolerance”, Materials Transactions, Vol.63(3), pp373 – 378(2022)
Zemmyo D., Yamamoto M., Miyata S., “Efficient decellularization by application of moderate high hydrostatic pressure with supercooling pretreatment”, Micromachines, Vol.12(12), (2021)
Imashiro C., Takeshita H., Morikura T., Miyata S., Takemura K., Komotori J., “Development of accurate temperature regulation culture system with metallic culture vessel demonstrates different thermal cytotoxicity in cancer and normal cells”, Scientific Reports, Vol.11(1), pp21466 (2021)
Takeuchi Y., Miyata S., “Dielectrophoretic micro-organization of chondrocytes to regenerate mechanically anisotropic cartilaginous tissue”, Micromachines, Vol.12(9), (2021)
Morikura T., Miyata S., “Mechanical intermittent compression affects the progression rate of malignant melanoma cells in a cycle period-dependent manner”, Diagnostics , Vol.11(6 ), (2021)
Suzuki H., Kasai K., Kimura Y., Miyata S., “UV/ozone surface modification combined with atmospheric pressure plasma irradiation for cell culture plastics to improve pluripotent stem cell culture”, Materials Science and Engineering C, Vol.123, pp112012 (2021)
Imashiro C., Hirano M., Morikura T., Fukuma Y., Ohnuma K., Kurashina Y., Miyata S., Takemura K., “Detachment of cell sheets from clinically ubiquitous cell culture vessels by ultrasonic vibration”, Scientific Reports, Vol.10(1), pp9468 – 9468 (2020)
Zemmyo D., Yamamoto M., Miyata S., “Fundamental study of decellularization method using cyclic application of high hydrostatic pressure”, Micromachines, Vol.11(11), (2020)
Takahashi Y., Miyata S., “Continuous ES/feeder cell-sorting device using dielectrophoresis and controlled fluid flow”, Micromachines, Vol.11(8), (2020)
Kasai K., Tohyama S., Suzuki H., Tanosaki S., Fukuda K., Fujita J., Miyata S., “Cost-effective culture of human induced pluripotent stem cells using UV/ozone-modified culture plastics with reduction of cell-adhesive matrix coating”, Materials Science and Engineering C, Vol.111, pp110788 – 110788 (2020)
Morikura T., Miyata S., “Effect of mechanical compression on invasion process of malignant melanoma using in vitro three-dimensional cell culture device”, Micromachines, Vol.10(10), (2019)
Zemmyo D., Miyata S., “Evaluation of lipid accumulation using electrical impedance measurement under three-dimensional culture condition”, Micromachines, Vol.10(7), (2019)
Bansai S., Morikura T., Onoe H., Miyata S., “Effect of cyclic stretch on tissue maturation in myoblast-laden hydrogel fibers”, Micromachines, Vol.10(6), (2019)
Kimura Y., Kasai K., Miyata S., “Feeder-free culture for mouse induced pluripotent stem cells by using UV/ozone surface-modified substrates”, Materials Science and Engineering C, Vol.92, pp280 – 286 (2018)
Kasai K., Kimura Y., Miyata S., “Improvement of adhesion and proliferation of mouse embryonic stem cells cultured on ozone/UV surface-modified substrates”, Materials Science and Engineering C, Vol.78, pp354 – 361 (2017)
Kurashina Y., Takemura K., Friend J., Miyata S., Komotori J., “Efficient subculture process for adherent cells by selective collection using cultivation substrate vibration”, IEEE Transactions on Biomedical Engineering, Vol.64(3), pp580 – 587 (2017)
Shikano K., Chiba K., Miyata S., “Response of human skin fibroblasts to mechanical stretch in wound healing process analyzed using a three-Dimensional culture model”, Advanced Biomedical Engineering, Vol.4, pp170 – 178 (2015)
Kurashina Y., Takemura K., Miyata S., Komotori J., Koyama T., “Effective cell collection method using collagenase and ultrasonic vibration”, Biomicrofluidics, Vol.8(5), pp054118 (2014)
Shogo MIYATA,　Yu SUGIMOTO, “Control of Cellular Organization Around Collagen Beads Using Dielectrophoresis”, Intel Autom Soft Comp, Vol.18 (2), pp.177-186(2012)
Shogo MIYATA,　Kazuhiro HOMMA, Tomokazu NUMANO,　Tetsuya TATEISHI, Takashi USHIDA, ” Evaluation of negative fixed-charge density in tissue-engineered cartilage by quantitative MRI and relationship with biomechanical properties”, Trans ASME J Biomech Eng, Vol. 132 (7), pp071014(2010)
Shogo MIYATA,　Tetsuya TATEISHI, Takashi USHIDA, ” Influence of Cartilaginous Matrix Composition on the Viscoelastic Response of Chondrocyte/Agarose Constructs Under Dynamic Compressive and Shear Loading”, Trans ASME J Biomech Eng, Vol. 130 (5), pp051016(2008)
Shogo MIYATA,　Tomokazu NUMANO,　Kazuhiro HOMMA, Tetsuya TATEISHI, Takashi USHIDA, ” Feasibility of Noninvasive Evaluation of Biophysical Properties of Tissue-Engineered Cartilage by Using Quantitative MRI”, J Biomech, Vol.40, pp2990-2998(2007)
Shogo MIYATA, Kazuhiro HOMMA, Tomokazu NUMANO, Katsuko FURUKAWA, Tetsuya TATEISHI, Takashi USHIDA, “Assessment of Fixed Charge Density in Regenerated Cartilage by Gd-DTPA – Enhanced MR Imaging”, Magn Reson Med Sci, Vol. 5(2), pp73-78(2006)
Shogo MIYATA, Tetsuya TATEISHI, Katsuko S FURUKAWA, Takashi USHIDA, “Influence of Structure and Composition on Dynamic Visco-Elastic Property of Cartilaginous Tissue: Criteria for Classification Between Hyaline Cartilage and Fibrocartilage Based on Mechanical Function”, JSME International Journal:C, Vol. 48(4), pp547-554(2005)
Shogo MIYATA, Katsuko S FURUKAWA, Takashi USHIDA, Yasuo NITTA, Tetsuya TATEISHI, “Static and Dynamic Mechanical Properties of Extracellular Matrix Synthesized by Cultured Chondrocytes”, Materials Science and Engineering: C, Vol. 24(3), pp425-429(2004)

Conference proceedings

Kasahara K., Kurashina Y., Miura S., Miyata S., Onoe H., “Real-Time Three-Dimensional Single-Cell-Resolution Monitoring System for Observation of Dynamic Cell Behavior under Mechanical Stimuli”, Proceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS), pp454 – 457 (2021)
R Nishi, Y Oda, T Morikura, S Miyata,”Effect of Hydrogel Stiffness on Growth and Invasion Process of Tumor Spheroid”,the 11th Asian-Pacific Conference on Biomechanics (AP Biomech 2021), (Dec,2021)
R Yoshida, K Harada, T Morikura, S Miyata,”Effect of Mechanical Stimulation on Migration Mode of Malignant Melanoma”,the 11th Asian-Pacific Conference on Biomechanics (AP Biomech 2021),(Dec,2021)
S Sato, S Miyata,”Generation of Cell Spheroid Using Hanging Drop Culture Combined with Orbital Shaking”,the 11th Asian-Pacific Conference on Biomechanics (AP Biomech 2021), (Dec,2021)
M Ono, S Miyata,”Muscle Tissue Culture Device with Simultaneous Monitoring of Contraction Force and Applying Electrical Stimuli”,the 11th Asian-Pacific Conference on Biomechanics (AP Biomech 2021), (Dec,2021)
D Zemmyo, M Yamamoto, K Sudo, S Miyata,”Fundamental Study od Dexellularization Method by Supercooling and High Hydrostatic Pressure”,6th World Congress 2021 Tissue Engineering and Regenerative Medicine International Society (TERMIS2021), (Nov,2021)
K Abe, T Kurihara, S Miyata,”Examination of Visualization of Cell Dispersion”,6th World Congress 2021 Tissue Engineering and Regenerative Medicine International Society (TERMIS2021), (Nov,2021)
K Kasahara , Y Kurashina , S Miura , S Miyata , H Onoe,”Real-Time Three-Dimensional Single-Cell-Resolution Monitoring System for Observation of Dynamic Cell Behavior under Mechanical Stimuli”,2021 IEEE 34th International Conference on Micro Electro Mechanical Systems (MEMS),(Jan,2021)
S Miyata, A Shinagawa,”Micro-/Nano Composite Fiber Scaffold Developed by Force-Spinning Fabrivation Device”,he 11th World Biomaterials Congress,(Dec,2020)
H Sato, S Miyata,”Multiple Beam Structure-Based Contractile Force Sensing Device for In Vitro Dermal Skin Tissue Model”,BMES 2020 Virtual Annual Meeting ,(Oct,2020)
K Harada, T Morikura, S Miyata,”Effect of Static Compression on Cell Morphology of In Vitro 3D Melanoma Model”,BMES 2020 Virtual Annual Meeting,(Oct,2020)
T Ota, M Mabuchi, T Sumi, S Miyata,”Cyclic Mechanical Stimulation Promote Reconstruction of Myotube Formation in Micro Collagen Gel Culture”,BMES 2020 Virtual Annual Meeting ,(Oct,2020)
Kasahara K., Kurashina Y., Miura S., Miyata S., Onoe H., “Shape Deformation Analysis of Single Cell in 3d Tissue under Mechanical Stimuli”, 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems and Eurosensors XXXIII, TRANSDUCERS 2019 and EUROSENSORS XXXIII, pp.413 – 416 (2019)
Shogo Miyata, Ayako Kuno, Yasuharu Yokoyama,”Effect of impact loading on material property and degeneration process of cartilage explants during in vitro culture”,5th Switzerland-Japan Workshop on Biomechanics (SJB2017), (Sep,2017)
Hayato Suzuki, Kohei Kasai, Yuka Kimura, Shogo Miyata,”Development of cell culture substrate for ES cells with surface modification using UV/Ozone and atmospheric pressure plasma treatments”, the XXVI Congress of the International Society of Biomechanics 2017 (ISB 2017), (July,2017)
Asuka Shinagawa, Kohei Kasai, Kohei Sasano, Shogo Miyata,”Evaluation technology for pluripotency of mouse embryonic stem cells using UV/ozone gradient surface modification”, the XXVI Congress of the International Society of Biomechanics 2017 (ISB 2017),
Takahiro Sumi, Aki Sugeno, Hanako Yazawa, Hajime Inoue, Shogo Miyata,”In vitro hair follicle regeneration by three-dimensional cell culture simulating in vivo cellular organization”,the XXVI Congress of the International Society of Biomechanics 2017 (ISB 2017), (July,2017)
Daiki Zenmyo, Shogo Miyata ,”Detection of adipocyte differentiation under three-dimensional culture condition using electrical impedance measurement”, the 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC’17), (July,2017)
K.Chiba, S. Miyata,”Effect of UV irradiation on mechanical property of skin cell-seeded collagen gel”, The 16th International Conference on Biomedical Engineering, (Dec,2016)
A.Suzuki, S. Miyata,”Effect of growth factors on shrinkage process in three-dimensional dermis cell culture model of tissue engineered cartilage of two tissues in a single-phase hydrogel”, The 16th International Conference on Biomedical Engineering, (Dec,2016)
D.Zenmyo, S. Miyata,” Detection of adipocyte differentiation and lipid accumulation using electrical impedance measurement of tissue engineered cartilage of two tissues in a single-phase hydrogel” ,The 16th International Conference on Biomedical Engineering, (Dec,2016)
K.Kasai, H. Nakata, S. Miyata“Feeder-free culture of mouse embryonic stem cells using ozone/UV surface-modified substrates”, 10th World Biomaterial Congress, (May,2016)
S. Miyata, Y. Kimura, K. Kasai, H. Nakata,” Ozone/UV surface modification of cell culturesubstrateandeffect of thaton adhesion andgrowth of mouse iPScells”, 10th World Biomaterial Congress,(May,2016)
Y. Kurashina, I. H. M. Hashim, K. Takemura, S. Miyata, J. Komotori, T. Koyama, “A Novel cell collection method using natural vibration and temperature Modulation of Cultivation Base”, ASME 2015 Internaitonal Mechanical Engineering Congress & Exposition(Nov, 2015)
Y. Kurashina, I. H. M. Hashim, K. Takemura, S. Miyata, J. Komotori, “Resonance vibration and temperature modulation enhances cell detachment from cultivation substrate”, ASME 2015 Internaitonal Mechanical Engineering Congress & Exposition (Nov, 2015)

Book chapter

Shogo MIYATA, “Non-invasive Evaluation Method for Cartilage Tissue Regeneration Using Quantitative-MRI”, In: Jamie DAVIES (Ed.), Tissue Regeneration – From Basic Biology to Clinical Application, INTECH, pp.473-488