Susa Koichiro

スサコウイチロウ | Susa Koichiro

Affiliation and department：
Job title： Assistant Professor
Research theme for competitive and other funds (4)：

2015 - 2016 塩分摂取がKLHL3を調節するメカニズムの解明
2015 - 2015 塩分摂取がKLHL3を調節するメカニズムの解明
腎臓オルガノイドを用いた腎線維化増悪因子の探索
腎臓オルガノイド上でのForward Geneticsによる慢性腎臓病機序の解析

Papers (40)：

Yuta Nakano, Shintaro Mandai, Taku Genma, Yuichiro Akagi, Tamami Fujiki, Fumiaki Ando, Koichiro Susa, Takayasu Mori, Soichiro Iimori, Shotaro Naito, et al. Nationwide mortality associated with perioperative acute dialysis requirement in major surgeries. International Journal of Surgery. 2022. 104. 106816-106816
Yu Hara, Fumiaki Ando, Daisuke Oikawa, Koichiro Ichimura, Hideki Yanagawa, Yuriko Sakamaki, Azuma Nanamatsu, Tamami Fujiki, Shuichi Mori, Soichiro Suzuki, et al. LRBA is essential for urinary concentration and body water homeostasis. Proceedings of the National Academy of Sciences. 2022. 119. 30. e2202125119
Gupta N, Matsumoto T, Hiratsuka K, Garcia Saiz E, Galichon P, Miyoshi T, Susa K, Tatsumoto N, Yamashita M, Morizane R. Modeling injury and repair in kidney organoids reveals that homologous recombination governs tubular intrinsic repair. Science translational medicine. 2022. 14. 634. eabj4772
Yuta Nakano, Koichiro Susa, Tomoki Yanagi, Yuichi Hiraoka, Takefumi Suzuki, Takayasu Mori, Fumiaki Ando, Shintaro Mandai, Tamami Fujiki, Tatemitsu Rai, et al. Generation of NPHP1 knockout human pluripotent stem cells by a practical biallelic gene deletion strategy using CRISPR/Cas9 and ssODN. In vitro cellular & developmental biology. Animal. 2022. 58. 2. 85-95
秦美沙, 萬代新太郎, 森崇寧, 太田潤, 吉嶺朝陽, 安藤史顕, 須佐紘一郎, 飯盛聡一郎, 磯部清志, 内藤省太郎, et al. エテルカルセチド過剰投与により低回転骨、高カルシウム血症をきたした維持血液透析患者の3例. 日本透析医学会雑誌. 2021. 54. 12. 689-696

ｍore...

Lectures and oral presentations (17)：

Modeling Kidney Injury and Repair in Kidney Organoids Reveals an Intrinsic Repair Mechanism.
(The 54th Annual Meeting of American Society of Nephrology)
当院透析合併症外来の現況とCOVID-19への対応
(第3回CKD医療連携ネットワークWebセミナー)
腎関連疾患に対するアプローチを学ぶ利尿剤編
(第5回腎臓病治療学セミナー)
Tubular Basement Membrane Duplication and Cell Interposition Are Distinctive Histological Findings in the Adult Patients Genetically Diagnosed with Nephronophthisis-Related Ciliopathies.
(The 52nd Annual Meeting of American Society of Nephrology.)
Renal TNF α Activates WNK Phosphorylation Cascade and Contributes to Salt-Sensitive Hypertension in CKD.
(The 52nd Annual Meeting of American Society of Nephrology.)

ｍore...

Work history (7)：

2019/04 - 現在 Tokyo Medical and Dental University Graduate School of Medical and Dental Sciences Medical and Dental Sciences Systemic Organ Regulation Nephrology Assistant Professor
2018/04 - 2019/03 Tokyo Medical and Dental University Medical Hospital Central Clinical Facilities Hemopurification Project Assistant Professor
2016/05 - 2018/03 Brigham and Women's Hospital, Harvard Medical School Renal Division Visiting Assistant Professor
2016/04 - 2018/03 Tokyo Medical and Dental University Graduate School of Medical and Dental Sciences Medical and Dental Sciences Systemic Organ Regulation Nephrology Visiting Lecturer
2014/11 - 2016/03 Tokyo Medical and Dental University Medical Hospital Central Clinical Facilities Hemopurification Assistant Professor

Show all

Awards (5)：

2021/09 - 東京医科歯科大学須佐紘一郎. 入賞. 2021年度東京医科歯科大学学内コラボ企画
2020/09 - 東京医科歯科大学須佐紘一郎. 大学改革アイディアコンテスト特賞オンラインセカンドオピニオン外来開設
2015/06 - 日本腎臓学会須佐紘一郎, 平成26年日本腎臓学会ベストサイテーション賞
2015/03 - お茶の水医科同窓会須佐紘一郎, 第27回お茶の水医科同窓会研究奨励賞
2014/07 - 日本腎臓学会須佐紘一郎, 第57回日本腎臓学会学術総会優秀演題賞 KLHL3変異マウスはWNK1及びWNK4の分解低下により偽性低アルドステロン症II型を発症する

※ Researcher’s information displayed in J-GLOBAL is based on the information registered in researchmap. For details, see here.

Return to Previous Page