IWAI Ryosuke

Affiliation and department：

Research field (2)： Biomaterials , Polymer materials

Research keywords (3)：細胞培養工学 , 組織工学 , バイオマテリアル

Research theme for competitive and other funds (23)：

2024 - 2029 New endovascular treatment strategy for aortic disease: possibility of transcatheter regenerative therapy using a cell fiber technology
2024 - 2026 Development of bypass graft for coronary bypass grafting using in-body tissure architecture technique
2022 - 2026 Development of artificial graft created by in-body tissue architecture for coronary arterial bypass
2022 - 2025 Scaffold-free気管模倣組織体で導かれた気管再生のメカニズム解明
2022 - 2025 細胞死抑制技術によるハイバイアビリティ細胞凝集体の創製と組織工学への応用

2021 - 2024 生体内組織形成術と軟骨細胞自己凝集化技術を組み合わせた大動物気管再生モデルの確立

2021 - 2024 Development of bifurcated curved bio-tube for the aorta with in-body tissue architecture

2021 - 2024 筋容積損失治療を指向したスキャホールドフリー・生体模倣立体筋組織体の創出

2023 - 2024 筋-腱連結細胞組織の自発形成・力学制御システムの開発

2020 - 2023 高機能化3D幹細胞塊の付加による新規脂肪移植法の開発

2022 - 2023 三次元細胞組織体の自発形成・発揮力計測チップの開発

2019 - 2022 Development of self-growth biotube for large blood vessel reconstruction by stereolithography and in-body tissue architecture

2019 - 2022 Tomorrow's Vascular Surgery Induced by World's Longest Tissue-engineered Vascular Grafts

2018 - 2021 Tracheal regeneration using an in-body-tissue-engineered collagenous tube: A novel tracheal scaffold

2018 - 2021 立体臓器チップ構築に向けた細胞単層の自動3D化技術の基盤開発

2017 - 2020 Development of biovalves created by in-body tissue architecture for xenotransplantation

2019 - 2020 下肢動脈バイパス用人工血管作製用の鋳型の仕様決定と事業計画策定

2015 - 2019 Development of next-generation type autologous heart valve (biovalve)

2015 - 2018 Callenging Biotube growth ~From fabrication to verification of a juvenile beagle model~

2015 - 2017 Development of core-shell cell structure called CELL CAPSULE for myocardial tissue regeneration by using cell self-organization inducible surfaces

2013 - 2015 Development of the novel valved stent composed of completely autologous tissue from Japan.

2013 - 2015 Preparation of vascularized thick myocardial tissue by using in-body cell self-organization inducible technology

2011 - 2012 Construction of in-body self-organized tissue fabrication bioprocess for the realization of novel regenerative medicine

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Papers (38)：

Noritaka Maeta, Ryosuke Iwai, Hiroshi Takemitsu, Natsuki Akashi, Masahiro Miyabe, Marina Funayama-Iwai, Yasuhide Nakayama. Evaluation of Skin Wound Healing with Biosheets Containing Somatic Stem Cells in a Dog Model: A Pilot Study. Bioengineering. 2024. 11. 5. 435-435
Kazuki Mori, Tadashi Umeno, Takayuki Kawashima, Tomoyuki Wada, Takuro Genda, Masanagi Arakura, Yoshifumi Oda, Takayuki Mizoguchi, Ryosuke Iwai, Tsutomu Tajikawa, et al. Breaking the Limit of Cardiovascular Regenerative Medicine: Successful 6-Month Goat Implant in World’s First Ascending Aortic Replacement Using Biotube Blood Vessels. Bioengineering. 2024. 11. 4
花木祥二朗, 高尾知佳, 藤澤佑樹, 山田大祐, 岩井良輔, 宝田剛志. ヒトiPS細胞由来軟骨組織を利用した小児気管疾患に対する再生治療法の開発. 日本小児外科学会雑誌. 2024. 60. 3. 509-509
Tadashi Umeno, Kazuki Mori, Ryosuke Iwai, Takayuki Kawashima, Takashi Shuto, Yumiko Nakashima, Tsutomu Tajikawa, Yasuhide Nakayama, Shinji Miyamoto. Carotid Artery Bypass Surgery of In-Body Tissue Architecture-Induced Small-Diameter Biotube in a Goat Model: A Pilot Study. Bioengineering. 2024. 11. 3. 203-203
Tomoyuki Ota, Tomoka Takao, Ryosuke Iwai, Takeshi Moriwaki, Yohei Kitaguchi, Yuki Fujisawa, Daisuke Yamada, Yoshihiro Kimata, Takeshi Takarada. Fabrication of shape-designable cartilage from human induced pluripotent stem cell-derived chondroprogenitors using a cell self-aggregation technique. Biomedical materials (Bristol, England). 2023

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MISC (41)：

TENG Lupeng, TENG Lupeng, 福島宗一郎, 福島宗一郎, 小泉誠, 長谷川実奈美, 岡野ジェイムス洋尚, 大木隆生, 岩井良輔. Development of contrast agent-loaded cell aggregated fibers by using cell self-aggregation technique. 日本生物工学会大会講演要旨集. 2023. 75th
TENG Lupeng, TENG Lupeng, 福島宗一郎, 福島宗一郎, 小泉誠, 長谷川実奈美, 岡野ジェイムス洋尚, 大木隆生, 岩井良輔. Preparation and histological evaluation of fiber-shaped cell aggregates loaded with X ray contrast particles. 組織培養研究(Web). 2023. 41. 2
藤澤佑樹, たき平将太, たき平将太, 高尾知佳, 山田大祐, 太田智之, 太田智之, 北口陽平, 北口陽平, 岩井良輔, et al. 関節軟骨再生を指向したヒトiPS細胞に由来する板状軟骨組織体の開発. 日本整形外科学会雑誌. 2023. 97. 8
北口陽平, 北口陽平, 太田智之, 太田智之, 高尾知佳, 岩井良輔, 藤澤祐樹, 山田大祐, 大曽根達則, 木股敬裕, et al. Development of an Endochondral Ossification Suppression Method using no glucose medium. 日本軟骨代謝学会プログラム・抄録集. 2023. 35th
北口陽平, 太田智之, 高尾知佳, 岩井良輔, 山田大祐, 大曽根達則, 木股敬裕, 宝田剛志. 無糖培地による培養軟骨移植時の内軟骨性骨化抑制法の開発. 日本形成外科学会総会・学術集会プログラム・抄録集. 2023. 66th

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Patents (27)：

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Education (1)：

2011 - 北海道大学大学院工学研究科生物機能高分子専攻博士後期課程修了

Professional career (1)：

博士(工学) (北海道大学)

Work history (4)：

2019/04 - 現在 Okayama University of Science
2016/04 - 2019/03 Okayama University of Science Research Institute of Technology
2014/04 - 2016/03 国立循環器病研究センター研究所生体医工学部特任研究員
2011/04 - 2014/03 国立循環器病研究センター研究所生体医工学部流動研究員

Committee career (5)：

2023/04 - 現在日本生物工学会次世代アニマルセルインダストリー研究部会幹事長
2022/06 - 現在日本生物工学会和文誌編集委員
2017/04 - 2021/03 日本人工臓器学会評議員・grant選出委員
2016/04 - 2018/03 日本生物工学会セルプロセッシング計測評価研究部会幹事・優秀学生発表賞選出委員
2017/11 - 第5回細胞凝集研究会当番幹事

Awards (7)：

2017/09 - 日本人工臓器学会萌芽研究優秀賞
2014/09 - 欧州人工臓器学会 Innovation Award 2014
2013/09 - 欧州心臓病学会 Young Investigators Award
2013/08 - 日本人工臓器学会 Yoshimi Memorial Grant賞
2013/01 - 国立循環器病研究センター平成24年度若手研究奨励賞

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Association Membership(s) (6)：

THE JAPANESE TISSUE CULTURE ASSOCIATION , JAPANESE SOCIETY FOR ALTERNATIVES TO ANIMAL EXPERIMENTS , THE JAPAN SOCIETY OF DRUG DELIVERY SYSTEM , THE JAPANESE SOCIETY FOR REGENERATIVE MEDICINE , JAPANESE SOCIETY FOR ARTIFICIAL ORGANS , The Society for Biotechnology

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