Osawa Shigehito

オオサワシゲヒト | Osawa Shigehito

Affiliation and department：
Job title： Shigehito Osawa
Homepage URL (1)： https://sites.google.com/toyo.jp/the-osawa-lab/

Research field (1)： Biomaterials

Research theme for competitive and other funds (5)：

2023 - 2026 高分子銅錯体のコンフォメーションに基づく触媒活性制御と創薬への展開
2020 - 2023 A Controlled Synthesis of Platinum-Zinc Colloid Using Polymer Micellar Core as a Reaction Field toward the Optimized Antioxidant Effect
2018 - 2023 網膜への薬剤送達を目指したバリア突破型温度応答性スマートナノ点眼の開発
2021 - 2021 細胞培養液の必要血清濃度低減を志向した高分子添加物の研究
2018 - 2020 Nucleic acid-loaded polymeric micelle having a optimized hydrophobic layer toward optic nerve recovery via instillation

Papers (30)：

Shigehito Osawa, Yoshikatsu Akiyama. Mechanical properties of poly(N-acryloyl-glycinamide) hydrogels dependent on initiation number of the polymerization reaction. ChemistrySelect. 2024. 9. 6. e202400244
Ryota Teshima, Shigehito Osawa, Miki Yoshikawa, Yayoi Kawano, Hidenori Otsuka, Takehisa Hanawa. Low-adhesion and low-swelling hydrogel based on alginate and carbonated water to prevent temporary dilation of wound sites. International Journal of Biological Macromolecules. 2024. 127928-127928
Shohei Ishikawa, Kazutoshi Iijima, Kohei Sasaki, Masaaki Kawabe, Shigehito Osawa, Hidenori Otsuka. Three-dimensional co-culture model employing silica nonwoven fabrics to enhance cell-to-cell communication of paracrine signaling between hepatocytes and fibroblasts. Biotechnology and Bioengineering. 2023. 120. 7. 1961-1974
Ryota Teshima, Shigehito Osawa, Yayoi Kawano, Takehisa Hanawa, Akihiko Kikuchi, Hidenori Otsuka. Physicochemical Properties of Egg-Box-Mediated Hydrogels with Transiently Decreased pH Employing Carbonated Water. ACS OMEGA. 2023. 8. 8. 7800-7807
Masahiko Asada, Hisakazu Tanaka, Yukie Suwa, Sachiko Irifune, Shigehito Osawa, Hidenori Otsuka. Tuning Pre-Solution of an Amphiphilic Polymeric Dispersant with Low Acid-Value toward Colored-Ink Preparation. Applied Science-Basel. 2023. 13. 3. 1834

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MISC (4)：

那須会里香、工藤和樹、大澤重仁、大塚英典. ポリマーの運動性とバイオ界面としての機能を考える. Colloid & Interface Communication. 2020. 45. 4. 26-28
石川昇平、大澤重仁、大塚英典. In situ 逐次架橋に基づくインジェクタブル相互侵入高分子網目ゲルのone-pot 設計. バイオマテリアル-生体材料-. 2020. 38. 4. 266-267
大澤重仁. バイオマテリアルの夢を語るー鼻につくモノから得るいい教訓. バイオマテリアル-生体材料-. 2018. 36. 4. 353-353
TOCKARY Theofilus A., TOCKARY Theofilus A., OSADA Kensuke, OSADA Kensuke, MOTODA Yusuke, HIKI Shigehiro, CHEN Qixian, TAKEDA Kaori M., DIRISALA Anjaneyulu, DIRISALA Anjaneyulu, et al. PEG-detachment induces Structural Transformation of Packaged DNA within Polyplex Micelles. 理研/iCONM/物材機構医工学ネットワーク理研シンポジウム平成29年. 2017

Patents (3)：

Lectures and oral presentations (78)：

高分子金属錯体の設計とDNA結合分子としての機能評価
(第32回バイオ・高分子シンポジウム 2022)
炭酸水を用いた弱塩基性アルギン酸ゲルの調製と皮膚欠損用創傷被覆材への展開
(第51回医用高分子シンポジウム 2022)
金属錯体モノマーの重合による高分子構築と金属含有比率制御への展開
(第71回高分子年次大会 2022)
高分子側鎖への導入で局所濃縮された銅錯体が促進する酸化還元活性の抗菌剤利用
(第71回高分子年次大会 2022)
核酸送達を志向した亜鉛錯体とオリゴエチレングリコール鎖を含むメタクリレート共重合体と核酸の配位結合性会合体の設計
(第11回CSJ化学フェスタ 2021)

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Education (3)：

- 2016 The University of Tokyo Graduate School, Division of Engineering Department of Materials Engineering
- 2016 The University of Tokyo Graduate School, Division of Engineering Department of Materials Engineering
- 2011 The University of Tokyo Faculty of Engineering Department of Materials Engineering

Professional career (1)：

Work history (3)：

2023/02 - 2024/03 Tokyo Women's Medical University Institute of Advanced Biomedical Engineering and Science
2018/04 - 2023/01 Tokyo University of Science Faculty of Science, Division 1 Applied Chemistry
2016/04 - 2018/03 Kawasaki Institute of Industrial Promotion Innovation Center of NanoMedicine Research Scientist

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