Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Mitsugu Todo Last modified date:2019.12.27

Associate Professor / Renewable Energy Center / Research Institute for Applied Mechanics


Presentations
1. Mitsugu Todo, Development and characterization of biodegradable polymeric scaffolds for cardiovascular tissue engineering, 5th International Conference on Materials and Reliability, 2019.11.
2. John Duckworth, Mitsugu Todo, Fracture mechanism of bioceramic bead filled biopolymer composite material, 5th International Conference on Materials and Reliability, 2019.11.
3. Hiroko Kurita, S. Ikeda, Y. Morita, Mitsugu Todo, Mechanical analysis of pulsation behavior of human iPSC-derived cardiomyocites, International Conference on Advanced Technology in Experimental Mechanics 2019, 2019.10.
4. @Y. Nakamuta, @T. Arahira, M. Todo, Development and characterization of collagen composite scaffold for cartilage tissue engineering, International Conference on Advanced Technology in Experimental Mechanics 2019, 2019.10.
5. Bou Bendkolbot, 東藤貢,高原淳, 発電細胞を模擬したバイオ電池の基礎的特性に関する研究, 日本機械学会 第32回バイオエンジニアリング講演会, 2019.12.
6. 呉順,東藤貢,梅林大督,山本優, Correlation between vertebral strength and bone mineral density, 第46回日本臨床バイオメカニクス学会, 2019.11.
7. Mitsugu Todo, Azizah Intan Pangesty, Development and Characterization of Polymer Scaffolds for cardiovascular Tissue Engineering, 6th International Conference on Recent Advances in Materials, Minerals and Environment 2018 (RAMM2018), 2018.11.
8. Mitsugu Todo, @Daisuke Umebayashi, Assessment of Vertebra Strength using CT-Image Based Finite Element Method , European Orthopaedic Research Society 26th Annual Meeting (EORS2018), 2018.09.
9. @Mitsugu Todo, Ikuho Yonezawa, Development of bone strength prediction method by using multidisciplinary computational anatomy with damage mechanics, Fourth International Symposium on the project “Multidisciplinary Computational Anatomy”, 2018.03.
10. #Azizah Pangesty, @Mitsugu Todo, Agung Purnama, Marlene Durand, Laurence Bordenave, Effect of gelatin functionalization on cell adhesion of PLCL vascular scaffold, 第17回日本再生医療学会総会, 2018.03.
11. John Duckworth, 東藤貢、松原庸勝、金澤知之進、志波直人, Analysis of fracture behavior of rat vertebrae using micro-CT based FEM, 日本機械学会M&M2017材料力学カンファレンス, 2017.10.
12. Azizah Intan Pangesty, Mitsugu TODO, Development of PLCL Tubular Scaffold Usig Melt Spinning Technique for Cardiovascular Tissue Engineering, The 28th Annual Conference of the European Society for Biomaterials (ESB2017), 2017.09, [URL].
13. Mitsugu TODO, Biomechanical Analysis of Hip Joint Arthroplasties using FEA with CT-Image Modelling
, ICAME2017, 2017.08, [URL].
14. Mitsugu TODO, Preparation and Characterization of Porous Tubular Scaffold made of PCL/PLCL Blends for Vascular Tissue Engineering, ICAME2017, 2017.08, [URL].
15. Mitsugu TODO, Mechanics of Posterior Stabilized Total Knee Arthroplasty During Daily Activities in Relation to Prosthesis Condylar and Post-cam Design: A Finite Element Study, ICAME2017, 2017.08, [URL].
16. Mitsugu TODO, Development and characterization of polymer/bioceramic composite scaffolds for bone tissue engineering, ICAME2017, 2017.08, [URL].
17. Muhammad Hilmi Jalil, Muhammad Hazli Mazlan, Mitsugu TODO, Biomechanical Comparison of Polymeric Spinal Cages Using Ct Based Finite Element Method, ICEBE2017(2017 3rd International Conference on Environment and Bio-Engineering, 2017.01, [URL].
18. Muhammad Hilmi Jalil, Mitsugu TODO, Development and Characterization of Gear Shape Porus Scaffolds Using 3D Printing Technology, ICEBE2017(2017 3rd International Conference on Environment and Bio-Engineering, 2017.01, [URL].
19. Yusuke Nakamuta, Mitsugu TODO, Takaaki Arahira, Improvement of Collagen Gel/Sponge Composite Scaffold by Gel Wrapping for Cartilage Tissue Engineering, ICEBE2017(2017 3rd International Conference on Environment and Bio-Engineering, 2017.01, [URL].
20. Md. Shariful Islam, Mitsugu TODO, Assessment of Compressive Ratio and Sintering Temperature Effects on Mechanical Properties of Collagen/Hydroxyapatite Composite
Scaffolds for Bone Tissue Engineering , 2nd International Exchange and Innovation Conference on Engineering & Sciences (IEICES2016), 2016.10.
21. Mitsugu TODO, Osteochondral and Cardiovascular Tissue Engineering with The Use of Porous Biomaterials, MESPIC2016 ( MECHANICAL ENGINEERING & SCIENCE POSTGRADUATE INTERNATIONAL CONFERENCE 2016 ), 2016.09, [URL].
22. Md. Shariful Islam, Mitsugu TODO, Improved Mechanical Properties of PVA-Chitosan Polymeric Porous Scaffolds for Tissue Engineering, MEDLIFE2015, 2015.12.
23. Md. Shariful Islam, Mitsugu TODO, Improved Mechanical Properties of PVA-Chitosan Polymeric Porous Scaffolds for Tissue Engineering, MEDLIFE (2015 International Conference on Health, , 2015.12, [URL].
24. Yusuke Nakamuta, Takaaki Arahira, Mitsugu TODO, Development of Artificial Cartilage for Knee Joint Replacement, 17th Cross Straits Symposium on Energy and Environmental Science and Technology Interdisciplinary Graduate School of Engineering of Sciences, Kyushu University (17th CSS-EEST), 2015.12.
25. Azizah Intan PANGESTY, Mitsugu TODO, Takaaki Arahira, Development of Cell Sheet / PLCL Tube Hybrid Structure for Cardiovascular Tissue Engineering, 17th Cross Straits Symposium on Energy and Environmental Science and Technology Interdisciplinary Graduate School of Engineering of Sciences, Kyushu University (17th CSS-EEST), 2015.12.
26. Pangesty, A. I, Mitsugu TODO, Takaaki Arahira, Development of Cell Sheet/ Polymer Tube Hybrid Structure for Cardiovascular Tissue Engineering, ATEM'15: International Conference on Advanced Technology in Experimental Mechanics 2015, 2015.10.
27. Jalil, M. H, Mitsugu TODO, Development of 3D Porous Structures Using 3D-Printing Technology, ATEM' 15: International Conference on Advanced Technology in Experimental Mechanics 2015, 2015.10.
28. Abdullah Halim, Mitsugu TODO, Biomechanical Analysis of Femoral Fracture after Resurfacing Hip Arthroplasty , 日本機械学会 第26回バイオフロンティア講演会, 2015.10.
29. Mazlan Hazli, Mitsugu TODO, Biomechanical Evaluation of Spine Augmentation on Osteoporotic Vertebral Compression Fractures , 日本機械学会 第26回バイオフロンティア講演会, 2015.10.
30. Yusuke Nakamuta, Takaaki Arahira, Mitsugu TODO, Variation of Compressive Mechanical Property of Engineered Cartilage Tissue Constructed Using Mesenchymal Stem Cells with Collagen Two-Phase Scaffold
, The 8th Asian-Pacific Conference on Biomechanics, 2015.09, [URL].
31. Yusuke Nakamuta, Takaaki Arahira, Mitsugu TODO, Variation of Compressive Mechanical Property of Engineered Cartilage Tissue Constructed Using Mesenchymal Stem Cells with Collagen,
Two Phase Scaffold. , 8th Asian-Pacific Conference on Biomechanics, 2015.09, [URL].
32. Abdul Halim Abdullah, Mitsugu TODO, Yasuharu Nakashima, Prediction of Bone Remodeling Mechanism in Lower Limbs with Different Hip Arthroplasties, The 8th Asian-Pacific Conference on Biomechanics, 2015.09, [URL].
33. Abdul Halim Abdullah, Mitsugu TODO, Yasuharu Nakashima, Prediction of Bone Remodeling Mechanism in Lower Limbs with Different Hip Arthroplasties, 8th Asian-Pacific Conference on Biomechanics, 2015.09, [URL].
34. Mitsugu TODO, Phanny Yos, Development And Characterization Of Novel Bone Substitutes Using Composite Scaffolds With Mesenchymal Stem Cells, Summer Biomechanics, Bioengineering and Biotransport Conference, 2015.06, [URL].
35. Mitsugu TODO, Yusuke Nakamuta, Takaaki Arahira, Development Of Artificial Cartilarge Using Two Phase Collagen/Scaffold With Mesenchymal Stem Cells, Summer Biomechanics, Bioengineering and Biotransport Conference, 2015.06.
36. Muhammad Hazli Mazlan, Mitsugu TODO, Effect of Cage Insertion Orientation on Stress Profiles and Subsidence Phenomenon in Posterior Lumbar Interbody Fusion, 2015 2nd International Conference on Mechanics and Mechatronics Research, 2015.06.
37. Pangesty Azizah Intan,, Arahira Takaaki, Mitsugu TODO, Characterization of osteochondral cell sheets of human mesenchymal stem cell, 日本機械学会 第27回バイオエンジニアリング講演会, 2015.01.
38. Jalil Muhammad Hilmi bin, Mitsugu TODO, Development of porous structures of PLA using 3D-printing technology, 日本機械学会 第27回バイオエンジニアリング講演会, 2015.01.
39. Mitsugu TODO, Abdul Halim Abdullah, Yasuharu Nakashima, Risk of Femoral Fracture in Hip Arthroplasties During Falling and Twisting Configurations: A Finite Element Study, International Society for Technology in Arthroplasty 27th Annual Conference, 2014.09.
40. Mitsugu TODO, Mohd Afzan Mohd Anuar, Ryuji Nagamine, Shunji Hirokawa, Effect of Mobility of the Second Insert-Tray Articulation on the Stress State of Mobile-Bearing Knee Prosthesis, International Society for Technology in Arthroplasty 27th Annual Conference, 2014.09.
41. Mitsugu TODO, Abdul Halim Abdullah, Yasuharu Nakashima, Yukihide Iwamoto, Prediction of Bone Resorption in Lower Limbs With Osteoarthritis and Hip Arthroplasty, International Society for Technology in Arthroplasty 27th Annual Conference, 2014.09.
42. Usuke Nakamuta, Takaaki Arahira, Mitsugu TODO, Development and Characterization of Collagen Gel/Sponge Two-Phase Scaffold for Cartilage Tissue Engineering, The 15th IUMRS-International Conference in Asia, 2014.08.
43. Mitsugu TODO, Takaaki Arahira, Biomechanical assessment of dental implant treatment for fully edentulous maxillas, 7th World Congress of Biomechanics, 2014.07.
44. Mitsugu TODO, Takaaki Arahira, Effects of proliferation and ECM formation on the compressive behavior of collagen/-TCP composite scaffolds with mesenchymal stem cells, 7th World Congress of Biomechanics, 2014.07.
45. P. Yos, Md. Abdul Kafi, M. Todo, Mechanical variation and proliferation behavior in hydroxyapatite based scaffolds with mesenchymal stem cells, The 15th International Conference on Biomedical Engineering, 2013.12.
46. M. Todo, N. Yamada, Development and characterization of bioceramic/polymer composite scaffold with drug release function for bone tissue engineering, The 15th International Conference on Biomedical Engineering, 2013.12.
47. M. Todo, K. Yamauchi, Development and characterization of CNT/biopolymer electrodes for bio-fuel cell, The 15th International Conference on Biomedical Engineering, 2013.12.
48. Md. Abdul Kafi, M. Todo, Proliferation behavior of mesenchymal stem cells in peptide functionalized chitosan scaffolds, The 15th International Conference on Biomedical Engineering, 2013.12.
49. U. Nakamuta, M. Todo, T. Arahira, Characterization of compressive mechanical behavior of gel/sponge 2-phase scaffold for cartilage tissue engineering, The 7th Asian Pasific Conference on Biomechanics, 2013.08.
50. P. Yos, M. Todo, Characterization of compressive deformation of porous HA and HA/PCL composite scaffolds for bone tissue engineering, The 7th Asian Pasific Conference on Biomechanics, 2013.08.
51. V. Vannaladsaysy, M. Todo, Tensile mechanical characteristics of core-shell hybrid structural polymer scaffold for ligament tissue engineering, The 7th Asian Pasific Conference on Biomechanics, 2013.08.
52. M. Todo, T. Arahira, In vitro bone formation by mesenchymal stem cells with 3D collagen/β-TCP composite scaffold, 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2013.07.
53. V. Vannaladsaysy, M. Todo, Development and characterization of hybrid scaffolds with core-shell structure for ligament tissue engineering, The 4th Asian Biomaterials Congress, 2013.06.
54. M. Todo, T. Arahira, Characterization of β-TCP/collagen two-phase scaffold with mesenchymal stem cells for bone tissue engineering, The 4th Asian Biomaterials Congress, 2013.06.
55. 東藤貢, モフドアヌア・モフドアフザン, 日垣秀彦, 三浦裕正, 長嶺隆二, Development of computational knee simulator for biomechanical analysis of TKA, 第44回日本人工関節学会, 2013.02.
56. 東藤 貢, Mohd Anuar Mohd Afzan, スクワット動作時のPS型人工膝関節における応力集中解析, 日本機械学会第25回計算力学講演会, 2012.10.
57. 東藤 貢, Phanny Yos, 骨組織工学用多孔質HAp/PCL複合材料の力学特性, 日本機械学会M&M2012材料力学カンファレンス, 2012.09.
58. 東藤 貢, Vilay Vannaladsaysy, 靭帯再生のためのコラーゲン/PCL複合系scaffoldの引張り変形挙動, 日本機械学会M&M2012材料力学カンファレンス, 2012.09.
59. Deformation analysis of the interface between artificial hip joint and femur using degital image correlation method.
60. Effect of plastic deformation on failure of orthopedic implant.
61. Impact fracture mechanism of ceramic ball for artificial hip joint.
62. Fracture property and fracture mechanism of PLA/PCL polymer blend.
63. Dynamic analysis of SHPB type fracture toughness test by finite element method.
64. Fracture property and fracture mechanism of HA/PLLA/PCL composite material.
65. Fracture behavior and fracture mechanism of PLLA/PCL and PLLA/PCL/PLLA-CL blends.
66. Impact fracture toughness and fracture mechanism of acrylic polymer blend.
67. Effect of microstructure on fracture mechanism of biodegradable polymer blend.
68. Plastic deformation analysis and fracture behavior of Titanium bone fixation material.
69. Study on fracture behavior of alumina ball for artificial hip joint.
70. Stress analysis of artificial knee joint using dynamic finite element method.
71. Effect of meso-structure on impact fracture behavior of biodegradable polylactide.
72. Measurement of impact fracture toughness of thermoplastic polymer using SHPB method.
73. Effect of additive on impact fracture property of PLA/PCL polymer blend.
74. 3-D contact analysis of artificial knee joint using finite element method.
75. Development and fracture property evaluation of bioabsorbable materials.
76. Effect of LTI addition on fracture behavior of PLA/PCL blend.
77. Application of computational mechanics on impact toughness evaluation of polymer blend.
78. Fracture characteristics of bioabsorbable polymer and composite material.
79. Simulation of impact fracture of rubber modified polymer.
80. Finite element modeling of TKA operated bone using image data.
81. Effect of drawing on fracture behavior of polylactide.
82. Meso-structure and fracture mechanism of PLA/PCL blend.
83. Analysis of impact fracture behavior of rubber toughened plastics using high-speed photography.
84. Effect of enzymatic hydrolysis on the fracture mechanism of poly(L-lactide).
85. Effect of bimodal distribution on impact fracture mechanism of MBS polymer blend.
86. Analysis of nonlinear deformation in notch-tip region of rubber modified PMMA.
87. Effect of particle shape on fracture properties of HA filled PLLA.
88. Mechanical properties and fracture mechanism of PLLA/PCL blend.
89. Finite element analysis of nonlinear dynamic deformation of MBS resin.
90. Finite element modeling of damage formation in notch-tip region of rubber modified PMMA.
91. Change of material properties of rubber toughened PMMA subjected to damage.
92. Effect of particle shape on the fracture behavior of HA/PLLA composite material.
93. Finite element analysis of heat generation in the crack-tip region of polymer.
94. Effect of loading-rate and hydrolysis on fracture mechanism of poly(L-lactide).
95. Toughening mechanism of glass microballoon filled epoxy due to rubber modification.
96. Development and evaluation of mechanical properties of bioabsorbable PLLA/PCL polymer alloy.
97. Measurement of damage zone shape of rubber-modified PMMA using optical microscope and image analysis.
98. Effect of rubber modification on fracture property of glass microballoon filled epoxy resin.
99. Microstructure and fracture properties of polymer and polymer blend.
100. Thermal deformation analysis of chuck door guide frame for coke oven door using finite element method.
101. Effect of strain-rate on deformation and fracture behavior of PCL.
102. Damage zone formation and fracture mechanism in notch-tip region in rubber-toughened PMMA.
103. Bimodal effect on the mode I fracture toughness of rubber toughened epoxy.
104. Measurement of the impact fracture properties of laminated glass using instrumented impact system.
105. Loading-rate dependence of the fracture property of biodegradable poly(lactic acid).
106. Development of phase shifting moire interferometry by using wedged glass plate.
107. Relationship between J-integral and damage-zone size in rubber modified MS resin.
108. Effect of molding temperature on impact property of biodegradable PLA.
109. Evaluation of impact fracture toughness of rubber toughened plastics.
110. Azizah Intan Pangesty, Takaaki Arahira, Mitsugu TODO, Characterization of cell sheets of mesenchymal stem cell.