Hashimoto Masami

ハシモトマサミ | Hashimoto Masami

Affiliation and department：
Job title： Researcher

Research field (1)： Biomaterials

Research keywords (5)：人工股関節 , 人工骨 , 表面電位 , 酸化チタン , 水酸化アパタイト

Research theme for competitive and other funds (7)：

2020 - 2023 二次元ナノ構造酸化チタンの表面欠陥と形態制御および抗感染性医用材料への応用
2016 - 2020 Basic research for the in situ treatment of the artificial hip joint
2016 - 2019 Development of surface potential-controlled Ti with high osteoblast activity and hydrophilicity
2013 - 2018 Nanostructure control and creation of environmental barrier ceramic materials
2013 - 2016 Development of highly bioactive TiO2 particles for PMMA bone cement

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Papers (94)：

Masami Hashimoto, Seiji Takahashi, Koichi Kawahara, Tomoyuki Ogawa, Masakazu Kawashita. Effect of heating conditions on the magnetic properties of micron-sized carboxyl modified-magnetite particles synthesized by a spray pyrolysis and heating process. Advanced Powder Technology. 2022. 33. 2. 103412-103412
Masami Hashimoto, Takafumi Ogawa, Satoshi Kitaoka. Control of Surface Potential of Titanium by Heat Treatment under Low Partial Oxygen Pressure. 2021. 56. 8. 522-525
Masayuki Kyomoto, Toru Moro, Shihori Yamane, Kenichi Watanabe, Masami Hashimoto, Sakae Tanaka, Kazuhiko Ishihara. Efficacy of hydrated phospholipid polymer interfaces between all-polymer bearings for total hip arthroplasty. J Biomed Mater Res. 2021. 1-14
Masami Hashimoto. Development of Titanium Oxide with High Bioactivity by Controlling Surface Potential Using Nitrogen-Doped Deficient. J. Jpn. Soc. Powder Powder Metallurgy. 2020. 67. 247-251
Masayuki Kyomoto, Toru Moro, Shihori Yamane, Kenichi Watanabe, Masami Hashimoto, Sakae Tanaka, Kazuhiko Ishihara. Hydrated Phospholipid Polymer Gel-Like Layer for Increased Durability of Orthopedic Bearing Surfaces. Langmuir : the ACS journal of surfaces and colloids. 2019. 35. 5. 1954-1963

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MISC (14)：

橋本雅美, 金髙弘恭. PMMA骨セメント用高生体活性酸化チタン粒子の開発. Fine ceramics report. 2017. 35. 2. 78-81
M. Hashimoto, S. Kitaoka, S. Muto, K. Tatsumi. Comparison of apatite-forming ability appeared by heat treatments of TiO2 and Ti under PO2-controlled nitrogen atmosphere. AMTC Letters. 2016. 5. 190-191
M. Hashimoto, S. Kitaoka, T. Matsudaira, S. Muto, K. Tatsumi. High Hydroxyapatite-forming Ability on TiO2 Scale Fabricated by Heat Treatment of Ti. AMTC Letters. 2014. 4. 214-215
橋本雅美, 京本政之, 京本政之, 京本政之, 茂呂徹, 石原一彦. 長寿命型人工股関節の開発と実用化. Fine Ceramics Report. 2013. 31. 4
橋本雅美, 柏木一美, 北岡諭, 山口誠二, 高玉博朗. 酸窒化処理したチタン上におけるアパタイト形成機構. 日本セラミックス協会年会講演予稿集. 2012. 2012. 0. 353-702

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Lectures and oral presentations (49)：

Differentiation behavior of osteogenic cell on surface potential-controlled TiO2 scale formed by oxynitridation of Ti
(43rd international conference and exposition on advanced ceramics and composites 2019)
MC3T3-E1 cellular response and protein detection on surface potential-controlled TiO2 scale in serum-containing medium
(Bioceramics30 2018)
血清含有培養液中における表面電位制御チタン上でのタンパク質の吸着
(日本セラミックス協会第31回秋季シンポジウム 2018)
PMMA骨セメント用の高生体活性酸化チタン粒子の開発
(メルパルク東京 2018)
Control of Bioactivity of Ti Metal by intervening TiO2 Scale Containing Nitrogen-related Defects
(International Symposium on Biomedical and Environmental Materials)

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Education (1)：

- 1994 京都大学大学院工学研究科博士後期課程工業化学専攻指導認定退学

Work history (3)：

2000/03 - 現在 Japan Fine Ceramics Center Materials Research and Development Laboratory Researcher
1996/04 - 2000/02 Mie University
1994/07 - 1996/03 国立循環器病センター研究所研究員

Awards (4)：

2019/03 - 永井科学技術財団永井技術賞表面電位制御による高生体活性チタンの開発
2017/10 - 日本ファインセラミックス協会日本ファインセラミックス協会地域賞骨補填材データベース
2013/05 - 日本ファインセラミックス協会日本ファインセラミックス協会産業振興賞長寿命型人工股関節の開発と実用化
2011/07 - フジサンケイビジネスアイ第25回独創性を拓く先端技術大賞企業・産学部門経済産業大臣賞長寿命型人工股関節の開発と実用化

Association Membership(s) (5)：

THE SOCIETY OF MATERIALS SCIENCE, JAPAN , 日本トライポロジー学会 , THE CHEMICAL SOCIETY OF JAPAN , THE JAPANESE SOCIETY FOR BIOMATERIALS , The Ceramic Society of Japan

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