MATSUMOTO Yoshitaka

Researcher's full information

Articles
  • 筑波大学のリニアックベースBNCT装置:iBNCTの中性子ビームの特性測定
    熊田 博明; 高田健太; 田中進; 松本孔貴; 内藤富士雄; 栗原俊一; 松村明; 櫻井英幸; 榮武二
    日本原子力学会2019年春の年会予稿集/pp.626-626, 2019-03
  • Development status of the iBNCT device as a linac-based neutron source of the University of Tsukuba
    Kumada H; Takada K; Matsumoto Y; Tanaka S; Nito F; Kuriha...
    YBNCT to Helsinki 2019プログラム集, 2019-09
  • A new approach utilizing radiation-induced immune response in cancer therapy
    石川 仁; 松本 孔貴; 高橋 昭久; 吉田 由香里; 櫻井 英幸
    第62回日本放射線影響学会抄録集, 2019-11
  • Impact of RhoA overexpression on clinical outcomes in cervical squamous cell carcinoma treated with concurrent chemoradiotherapy
    Tanaka Keiichi; Matsumoto Yoshitaka; Ishikawa Hitoshi; ...
    Journal of radiation research/61(2)/pp.221-230, 2020-01
    PubMed
  • Beam performance of the iBNCT as a compact linac-based BNCT neutron source developed by University of tsukuba
    Kumada Hiroaki; Takada Kenta; Naito Fujio; Kurihara Tosh...
    AIP Conference Proceedings/2160, 2019-10
  • 8.2.7 Metastasis of Cancer from the viewpoint of radiation therapy—Anti-Metastatic Effects of High LET Particle Beam—
    松本 孔貴
    RADIOISOTOPES/68(10)/pp.731-740, 2019
    CiNii
  • 低出力温熱療法オンコサーミアと放射線の併用による抗腫瘍効果
    松本 孔貴; 林 淳子; 関野 雄太; 福光 延吉; 斎藤 高; 高田 健太; 小林 大輔; 石川 仁; 櫻井 英幸
    Thermal Medicine/34(2)/pp.76-77, 2018-06
  • 新規がん治療オンコサーミアによる放射線増感効果 治療抵抗性の克服に向けて
    松本 孔貴; 林 淳子; 関野 雄太; 福光 延吉; 斎藤 高; 石川 仁; 櫻井 英幸
    Thermal Medicine/34(Suppl)/pp.154-154, 2018-08
  • DOSE-RATE AND CELL-KILLING SENSITIVITY OF HIGH-LINEAR ENERGY TRANSFER ION BEAM
    Furusawa Y; Matsumoto Y; Hirayama R; Ohsawa D; Konishi T
    Radiation protection dosimetry/183(1-2)/pp.219-222, 2018-12
    PubMed
  • DIFFERENCE IN DEGREE OF SUB-LETHAL DAMAGE RECOVERY BETWEEN CLINICAL PROTON BEAMS AND X-RAYS
    Matsumoto Yoshitaka; Ando Koichi; Kato Takamitsu A; Se...
    Radiation protection dosimetry/183(1-2)/pp.93-97, 2018-12
    PubMed
  • ESTIMATION OF RBE VALUES FOR CARBON-ION BEAMS IN THE WIDE DOSE RANGE USING MULTICELLULAR SPHEROIDS
    Matsumoto Yoshitaka; Furusawa Yoshiya; Aoki-Nakano Miz...
    Radiation protection dosimetry/183(1-2)/pp.45-49, 2019-01
    PubMed
  • 新規低出力温熱治療オンコサーミアと放射線に併用による殺細胞効果
    松本孔貴; 太田愛里; 林淳子; 関野雄太; 福光延吉; 斎藤高; 石川 仁; 櫻井英幸
    Thermal Medicine/33/p.140, 2017
  • 論文紹介(生物学) An analysis of the structure of the compound biological effectiveness factor
    松本 孔貴
    NCT Letter/(4)/pp.26-28, 2017-09
  • Folate-modified cyclodextrin improves the imtratumoral accumulation of existing boron compounds.
    Matsumoto Yoshitaka; Hattori Kenjiro; Arima Hidetoshi; Mo...
    Proceedings of YBNCT9/pp.80-80, 2017-11
  • 2016 Terasima Award
    Matsumoto Yoshitaka
    Journal of Radiation Research/58(1)/pp.164-164, 2017-01
  • Multilateral Approach toward Realization of Next Generation Boron Neutron Capture Therapy
    Matsumoto Yoshitaka; Hattori Kenjiro; Arima Hidetoshi; Mo...
    KURRI Progress Report 2017/pp.10-10, 2018-06
  • Antimetastatic Effects of Carbon-Ion Beams on Malignant Melanomas
    Matsumoto Yoshitaka; Furusawa Yoshiya; Uzawa Akiko; Hi...
    Radiation research/190(4)/pp.412-423, 2018-07
    PubMed
  • Characteristic measurements for neutron beam of the linac-based neutron source for BNCT device in University of Tsukuba
    Kumada Hiroaki; Takada kenta; Onishi Takahiro; Naito Fuj...
    Proceedings of YBNCT9/pp.S2-1-S2-1, 2017-11
  • Equivalency of the quality of sublethal lesions after photons and high-linear energy transfer ion beams
    Furusawa Yoshiya; Nakano-Aoki Mizuho; Matsumoto Yoshit...
    Journal of radiation research/58(6)/pp.803-808, 2017-07
    PubMed Tsukuba Repository
  • 加速器型中性子源BNCTに併設した生物実験室の整備状況について
    Matsumoto Yoshitaka
    NCT letter/3/pp.21-21, 2016-07
  • Effects on the microvessel density and astrocytic activation after local brain irradiation with carbon ions.
    Matsumoto Yoshitaka; 高井伸彦; 鵜澤玲子; 近藤夏子; 櫻井良憲; 古澤佳也; 平山亮一; 中村沙織; 大庭義史
    2015 Annual Report of the Research Project with Heavy Ions at NIRS-HIMAC/pp.71-72, 2016-09
  • Analyzing Tumor Microenvironment and Exploiting its Characteristics in Search of Optimizing Cancer Therapy Including Neutron Capture Therapy
    Matsumoto Yoshitaka
    KURRI Progress Report 2016/pp.39-39, 2017-07
  • Analyzing Tumor Microenvironment and Exploiting its Characteristics in Search of Optimizing Cancer Therapy Including Neutron Capture Therapy
    Matsumoto Yoshitaka
    KURRI Progress Report 2015/pp.50-50, 2016-07
  • The Effect of p53 Status of Tumor Cells on Radiosensitivity of Irradiated Solid Tumors with Accelerated Carbon-ions Compared with -rays or Reactor Neutrons
    Matsumoto Yoshitaka
    KURRI Progress Report 2015/pp.51-51, 2016-07