Ishimoto Takuya

イシモトタクヤ | Ishimoto Takuya

Affiliation and department：
Job title： Professor
Other affiliations (1)：

Osaka University

Research field (1)： Structural and functional materials

Research theme for competitive and other funds (29)：

2021 - 2026 Science for Creation of Biomaterials by Super Thermal Field
2021 - 2026 Management of Science for Creation of Materials by Super-Thermal Field
2022 - 2025 レーザ積層造形法による粉末とレーザの重畳効果を利用した高機能性発現材料の創製
2021 - 2025 4D printing of microstructurally organized bone-mimetic organ
2019 - 2023 骨劣化を生じない新骨機能化インプラントロジー

2018 - 2023 "Materials Science of Anisotropy" for induction of bone tissue anisotropy

2020 - 2022 Development of a new scientific principle of anisotropic bone matrix science based on materials engineering

2019 - 2021 Establishment of a new bone regeneration method that enables rapid recovery of bone mechanical function

2017 - 2020 Development of a novel scientific principle of "Biological Materials Science of Bone"

2017 - 2020 Development of pulp capping material based on the wound healing mechanism of the pulp tissue using bioinformatics

2018 - 2019 骨自発的・人為的アプローチによる骨配向化機構の解明と制御

2016 - 2019 Clarification of self-adjusting capacity of strength in bone focusing on osteocytes

2015 - 2019 Treatment for promoting early healing of bone fracture using the combination of anti-osteoporosis drugs

2016 - 2018 Consideration of design principle for creating implant that does not cause strain shielding on bone based on bone matrix orientation

2013 - 2018 Induction of anisotropic bone tissues based on combination of materials science and bone biology

2015 - 2017 Development of bone function-mimetic metallic implants that is recognized as "bone" itself

2015 - 2017 High effective strengthening of metallic implants made of metals with self-tunable elastic modulus by partial deformation

2012 - 2017 Analysis of mechanism of peculiar high strength and ductility of metastable beta-type titanium alloy with high oxygen content for structural biomaterials

2013 - 2016 Bone mechanical functionalization by control of bone quality using stress field

2013 - 2015 Prototyping of composite products with bone-mimetic mechanical functions based on novel functionalization concept

2013 - 2015 Stress-responsive self-strengthening of biomedical metals with self-tunable elastic modulus--Potential of stress-induced omega phase to improve mechanical properties

2012 - 2015 Ultramicrostructural analysis of biomineralization processes of DMP1

2013 - 2014 骨配向化機構に基づく骨代替生体材料の創製

2011 - 2012 Artificial control of bone mechanical functions usingmagnesium as a biological trace metal

2009 - 2010 Establishment of In Vivo Non-Destructive and Less-Invasive method for Analyzing Bone Quality

2009 - 2009 骨類似機能を発揮するパウダー/ソリッド三次元造形複合体の創製

2009 - 2009 骨配向性を考慮した新規概念からなるバイオマテリアルの設計・開発

2008 - 2009 材料工学を機軸とする最先端骨再生技術の新展開

2005 - 2006 結晶学的アプローチによる新しい再生骨評価法の確立と配向化メカニズムの解明

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Papers (158)：

Fei Sun, Yoshitaka Adachi, Kazuhisa Sato, Takuya Ishimoto, Takayoshi Nakano, Yuichiro Koizumi. Delineating the Ultra-Low Misorientation between the Dislocation Cellular Structures in Additively Manufactured 316L Stainless Steel. Materials. 2024. 17. 8. 1851-1851
Tadaaki Matsuzaka, Akira Hyakubu, Yong Seong Kim, Aira Matsugaki, Takeshi Nagase, Takuya Ishimoto, Ryosuke Ozasa, Hyoung Seop Kim, Tomoji Mizuguchi, Ozkan Gokcekaya, et al. Development of an equiatomic octonary TiNbTaZrMoHfWCr super-high-entropy alloy for biomedical applications. Materials Chemistry and Physics. 2024. 316. 129120-129120
Jun Wang, Takuya Ishimoto, Tadaaki Matsuzaka, Aira Matsugaki, Ryosuke Ozasa, Takuya Matsumoto, Mikako Hayashi, Hyoung Seop Kim, Takayoshi Nakano. Adaptive enhancement of apatite crystal orientation and Young's modulus under elevated load in rat ulnar cortical bone. Bone. 2024. 181. 117024
Qiang Li, Qizhen Peng, Qi Huang, Mitsuo Niinomi, Takuya Ishimoto, Takayoshi Nakano. Development and characterizations of low-modulus Ti-Nb-Cu alloys with enhanced antibacterial activities. Materials Today Communications. 2024. 38. 108402-108402
Prince Valentine Cobbinah, Sae Matsunaga, Yoshiaki Toda, Ryosuke Ozasa, Masayuki Okugawa, Takuya Ishimoto, Yuheng Liu, Yuichiro Koizumi, Pan Wang, Takayoshi Nakano, et al. Peculiar microstructural evolution and hardness variation depending on laser powder bed fusion-manufacturing condition in Ti-6Al-2Sn-4Zr-6Mo. Smart Materials in Manufacturing. 2024. 2. 100050-100050

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MISC (179)：

Takuya Ishimoto, Takayoshi Nakano. Review®Microstructural Control and Functional Enhancement of Light Metal Materials via Metal Additive Manufacturing⁺¹. Materials Transactions. 2023. 64. 1. 10-16
Ryosuke Ozasa, Aira Matsugaki, Takuya Ishimoto, Takayoshi Nakano. Review ® Research and Development of Titanium-Containing Biomedical High Entropy Alloys (BioHEAs) Utilizing Rapid Solidification via Laser-Powder Bed Fusion⁺¹. Materials Transactions. 2023. 64. 1. 31-36
Hiroki Amano, Takuya Ishimoto, Takayoshi Nakano. Review-Importance of Atmospheric Gas Selection in Metal Additive Manufacturing: Effects on Spatter, Microstructure, and Mechanical Properties. Materials Transactions. 2023. 64. 1. 2-9
小笹良輔, 森口敦, 森石武史, 小守壽文, 石本卓也, 石本卓也, 松垣あいら, 中野貴由. 骨コラーゲン/アパタイト配向性のオステオカルシン濃度依存性. 日本金属学会講演大会(Web). 2022. 170th
永瀬丈嗣, 當代光陽, 石本卓也, 小笹良輔, 松垣あいら, 中野貴由. Ti系鋳造合金とTi系生体用ハイエントロピー合金(BioHEA)の凝固組織. 日本鋳造工学会全国講演大会講演概要集. 2022. 179th

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Books (6)：

The advanced Research of Biomaterials
2014 ISBN:9784889030761
未来型人工関節を目指して
日本医学館 2013 ISBN:9784890447725
"Interface Oral Health Science 2011", Design of biomaterials for bone replacement based on parameters determining bone quality
Springer 2012
Progress in Advanced Structural and Functional Materials Design
Springer 2012 ISBN:9784431540632
ますます重要になる細胞周辺環境の科学技術-細胞の存在、増殖、機能のコントロールから再生医療まで-,「第2章細胞周辺環境のための材料加工技術, 17. 多孔質金属」田畑泰彦編,「遺伝子医学」MOOK
(株)メディカルドゥ 2009

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Lectures and oral presentations (46)：

『医歯薬工連携によるバイオマテリアルの開発』金属インプラント埋入に基づく応力遮蔽による骨機能劣化と、応力遮蔽を抑制する低ヤング率インプラント創製
(日本骨形態計測学会雑誌 2019)
Additive manufacturingによる低ヤング率インプラントの創製と骨への応力遮蔽抑制効果
(日本骨形態計測学会雑誌 2018)
インプラントを介した規則的な繰り返し荷重が骨関連細胞とコラーゲンの配向性に与える影響
(日本骨形態計測学会雑誌 2018)
ラット上顎骨に埋入されたスレッドインプラント周囲における荷重の影響
(日本骨代謝学会学術集会プログラム抄録集 2018)
Formation and regeneration of preferential alignment of extra cellular matrix in calvaria analysed by microbeam X-ray diffractometer
(2013)

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Professional career (1)：

博士(工学) (大阪大学)

Committee career (13)：

2024/04 - 現在日本バイオマテリアル学会広報WGメンバー
2023/11 - 現在日本金属学会広報委員会委員
2022/10 - 現在 Materials Transactions Associate Editor
2022/04 - 現在日本チタン学会編集委員・副委員長
2021/06 - 現在日本チタン学会理事

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Awards (46)：

2024/05 - 日本材料学会令和5年度技術賞受賞骨基質配向化誘導を実現する金属;Dプリンティングチタン合金製脊椎固定用医療デバイスの新技術開発
2024/03 - 日本金属学会第42回優秀ポスター賞 L-PBF によって作製した Ti-Cr-Sn 合金の内部組織と超弾性特性
2023/12 - 日本金属学会第7分野第7分野講演大会優秀ポスター賞レーザ粉末床溶融結合法によるTi-6Al-4V/Ti-15Mo-5Zr-3Alマルチマテリアル界面での組織、強度解析
2023/12 - 日本金属学会第7分野第7分野講演大会優秀ポスター賞低ヤング率と高強度を両立した生体用Ti合金の開発
2023/12 - 日本金属学会北陸信越支部・日本鉄鋼協会北陸信越支部令和5年度連合講演会優秀学術発表賞低ヤング率と高強度を両立した生体用 Ti 系合金の開発

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Association Membership(s) (11)：

日本チタン学会 , JAPAN ENDODONTIC ASSOCIATION , THE JAPANESE SOCIETY OF CONSERVATIVE DENTISTRY , JAPANESE SOCIETY FOR CLINICAL BIOMECHANICS , THE SOCIETY OF MATERIALS SCIENCE, JAPAN , THE JAPAN INSTITUTE OF LIGHT METALS , JAPANESE SOCIETY FOR BONE AND MINERAL RESEARCH , JAPANESE SOCIETY FOR BONE MORPHOMETRY , THE IRON AND STEEL INSTITUTE OF JAPAN , THE JAPANESE SOCIETY FOR BIOMATERIALS , THE JAPAN INSTITUTE OF METALS AND MATERIALS

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