Omata Yasunori

オマタヤスノリ | Omata Yasunori

Affiliation and department：

Research field (2)： Molecular biology , Biogeoscience

Research theme for competitive and other funds (8)：

2024 - 2027 The mechanism of joint homeostasis in the coupling of articular cartilage and synovium
2023 - 2027 関節の恒常性を司る、滑膜と軟骨の連関制御機構の解明
2021 - 2024 転写因子Hhexによる破骨細胞・マクロファージ制御機構と骨関節疾患への関与
2021 - 2024 網羅的発現解析と一細胞解析を駆使した関節疾患における慢性疼痛の発生機序の解明
2019 - 2024 次世代シングルセル解析技術を用いた破骨細胞分化の制御機構の解明

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Papers (48)：

Tatsuyuki Fukui, Asuka Terashima, Yasunori Omata, Ryota Chijimatsu, Kazuo Okamoto, Masayuki Tsukasaki, Yukiko Fukuda, Tadayoshi Hayata, Akiyoshi Saitoh, Etsuko Toda, et al. Disulfiram ameliorates bone loss in ovariectomized mice by suppressing osteoclastogenesis. Journal of bone and mineral metabolism. 2024
Asuka Terashima, Kumiko Ono, Yasunori Omata, Sakae Tanaka, Taku Saito. Inflammatory diseases causing joint and bone destruction: rheumatoid arthritis and hemophilic arthropathy. Journal of bone and mineral metabolism. 2024. 42. 4. 455-462
Ryutaro Takeda, Hiroyasu Mizuhara, Akihiro Uchio, Toshiko Iidaka, Kenta Makabe, Taro Kasai, Yasunori Omata, Noriko Yoshimura, Sakae Tanaka, Takumi Matsumoto. Automatic estimation of hallux valgus angle using deep neural network with axis-based annotation. Skeletal radiology. 2024
Morten S Hansen, Kaja Madsen, Maria Price, Kent Søe, Yasunori Omata, Mario M Zaiss, Caroline M Gorvin, Morten Frost, Alexander Rauch. Transcriptional reprogramming during human osteoclast differentiation identifies regulators of osteoclast activity. Bone research. 2024. 12. 1. 5-5
Ryutaro Takeda, Takumi Matsumoto, Yasunori Omata, Hiroshi Inui, Shuji Taketomi, Yuichi Nagase, Takuji Nishikawa, Hiroyuki Oka, Sakae Tanaka. Changes in knee joint destruction patterns among patients with rheumatoid arthritis undergoing total knee arthroplasty in recent decades. Clinical rheumatology. 2023. 42. 9. 2341-2352

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MISC (5)：

岡田寛之, 鍛治屋浩, 小俣康徳, 北條宏徳, 鄭雄一, 岡部幸司, 宮本健史, 田中栄. 関節リウマチにおける関節破壊機序数理モデルが解き明かす破骨細胞分化における細胞内カルシウム動態 CTLA4-Igの骨破壊抑制機序を含めて. 日本骨代謝学会学術集会プログラム抄録集. 2021. 39回. 76-76
岡田寛之, 鍛治屋浩, 小俣康徳, 北條宏徳, 鄭雄一, 岡部幸司, 宮本健史, 田中栄. 関節リウマチにおける関節破壊機序数理モデルが解き明かす破骨細胞分化における細胞内カルシウム動態 CTLA4-Igの骨破壊抑制機序を含めて. 日本骨粗鬆症学会雑誌. 2021. 7. Suppl.1. 179-179
岡田寛之, 鍛治屋浩, 小俣康徳, 北條宏徳, 鄭雄一, 岡部幸司, 宮本健史, 田中栄. 数理モデルが解き明かす破骨細胞分化に必須な共刺激. 日本整形外科学会雑誌. 2021. 95. 8. S1809-S1809
Chang, S.H., Yasui, T., Taketomi, S., Matsumoto, T., Kim-Kaneyama, J.R., Omiya, T., Hosaka, Y., Inui, H., Omata, Y., Yamagami, R., et al. Comparison of mouse and human ankles and establishment of mouse ankle osteoarthritis models by surgically-induced instability. Osteoarthritis and Cartilage. 2016. 24. 4. 688-697
Yasunori Omata, Tetsuro Yasui, Yuho Kadono, Takumi Matsumoto, Hironari Masuda, Jun Hirose, Naoto Tokuyama, Hisataka Yasuda, Yuuki Imai, Hiroyuki Aburatani, et al. Genome-wide Comprehensive Epigenetic Analysis Reveals that TGF-beta Works as an Essential Mediator for RANKL-induced Osteoclastogenesis Cooperating with c-FOS. JOURNAL OF BONE AND MINERAL RESEARCH. 2013. 28

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