Microbeam Irradiation Facilities for Radiobiology in Japan and China
スポンサーリンク
概要
- 論文の詳細を見る
In order to study the radiobiological effects of low dose radiation, microbeam irradiation facilities have been developed in the world. This type of facilities now becomes an essential tool for studying bystander effects and relating signaling phenomena in cells or tissues. This review introduces you available microbeam facilities in Japan and in China, to promote radiobiology using microbeam probe and to encourage collaborative research between radiobiologists interested in using microbeam in Japan and in China.
- 日本放射線影響学会の論文
- 2009-03-31
著者
-
YAMASHITA SHUNICHI
Atomic Bomb Disease Institute, Nagasaki University Graduate School of Biomedical Sciences
-
木梨 友子
京都大学原子炉実験所附属粒子線腫瘍学研究センター
-
Kanai Tatsuaki
茨城県立医療大学 放射線技術科学科
-
Konishi Teruaki
Dept. Technical Support And Development National Institute Of Radiological Sciences
-
Kinashi Yuko
Radiation Safety And Control Research Reactor Institute Kyoto University
-
Wu Lijun
Key Laboratory Of Ion Beam Bioengineering
-
HAMADA Nobuyuki
Department of Quantum Biology, Gunma University Graduate School of Medicine
-
FUNAYAMA Tomoo
Microbeam Radiation Biology Group, Japan Atomic Energy Agency (JAEA)
-
SAKASHITA Tetsuya
Microbeam Radiation Biology Group, Japan Atomic Energy Agency (JAEA)
-
KOBAYASHI Yasuhiko
Department of Quantum Biology, Gunma University Graduate School of Medicine
-
Yamashita Shunichi
Atomic Bomb Disease Institute Graduate School Of Biomedical Sciences Nagasaki University
-
Kobayashi Katsumi
Photon Factory Institute Of Materials Structure Science High Energy Accelerator Research Organizatio
-
Tomita Masanori
Radiation Safety Research Center Central Research Institute Of Electric Power Industry
-
Shirai K
Division Of Applied Biology Faculty Of Textile Science And Technology Shinshu University
-
Iso Hiroyuki
Natl Inst Radiol Sci
-
Kakizaki Takehiko
Dept. Of Biochem. Gunma Univ. Graduate Sch. Med.
-
Funayama Tomoo
Microbeam Radiation Biology Group Quantum Beam Science Directorate Japan Atomic Energy Agency
-
Funayama Tomoo
Microbeam Radiation Biology Group Japan Atomic Energy Agency
-
Kinashi Yuko
Radiation Oncology Research Laboratory Research Reactor Institute Kyoto University
-
KAGAWA Yasuhiro
The Institute of Physical and Chemical Research
-
TAGUCHI Mitsumasa
JAERI-Takasaki
-
YASUDA Keisuke
The Wakasa Wan Energy Research Center
-
HATORI Satoshi
The Wakasa Wan Energy Research Center
-
TOMITA Masanori
RIKEN
-
Hamada Nobuyuki
Department Of Quantum Biology Division Of Bioregulatory Medicine And The 21st Century Center Of Exce
-
KOBAYASHI Katsumi
High Energy Accel Res Org
-
IMASEKI Hitoshi
Dept. Technical Support and Development, National Institute of Radiological Sciences
-
HATASHITA Masanori
The Wakasa Wan Energy Research Center
-
TAKAGI Keiichi
The Wakasa Wan Energy Research Center
-
SUZUKI Keiji
Atomic Bomb Disease Institute, Graduate School of Biomedical Sciences, Nagasaki University
-
YAMAUCHI Motohiro
Atomic Bomb Disease Institute, Graduate School of Biomedical Sciences, Nagasaki University
-
TOMITA Masanori
Cenral Research Institute of Electric Power Industry
-
MAEDA Munetoshi
Cenral Research Institute of Electric Power Industry
-
USAMI Noriko
Photon Factory, KEK
-
Shirai Katsuyuki
Department Of Radiation Oncology Gunma University Graduate School Of Medicine
-
Sakashita Tetsuya
Microbeam Radiation Biology Group Japan Atomic Energy Agency
-
Yamashita Shunichi
Nagasaki Prefectural Institute For Environmental Research And Public Health
-
Hatashita Masanori
Department Of Radiation Oncology Gunma University Graduate School Of Medicine
-
Kinashi Yuko
Kyoto Univ. Research Rcactor Institute
-
KODAMA Kumiko
Natl Inst Radiol Sci
-
Usami N
Photon Factory Institute Of Materials Structure Science High Energy Accelerator Research Organizatio
-
Usami Noriko
Photon Factory Inst. Materials Structure Science Kek
-
Usami Noriko
Photon Factory Imss Kek.
-
Yanase Sumino
School Of Sports And Health Science Daito Bunka University
-
Kobayashi K
Photon Factory Institute Of Materials Structure Science High Energy Accelerator Research Organizatio
-
Usami Noriko
Photon Factory Kek.
-
Maeda Munetoshi
Radiation Safety Research Center Nuclear Technology Research Laboratory Central Research Institute O
-
Imaseki Hitoshi
Dept. Technical Support And Development National Institute Of Radiological Sciences
-
Yamauchi Motohiro
Atomic Bomb Disease Institute Graduate School Of Biomedical Sciences Nagasaki University
-
Satoh K
Division Of Applied Biology Faculty Of Textile Science And Technology Shinshu University
-
Furusawa T
Microbeam Radiation Biology Group Radiation-applied Biology Division Quantum Beam Science Directorat
-
Kimura Takafumi
Graduate School Of Life Sciences Tohoku Univ.
-
Tomita Masanori
Biophys. Lab. Fac. Sci. Rikkyo Univ.
-
Matsumoto Y
Atomic Bomb Disease Inst. Graduate School Of Biomedical Sciences Nagasaki Univ.
-
Taguchi Mitsumasa
Radiation Safety Research Center Central Research Institute Of Electric Power Industry
-
Taguchi Mitsumasa
Organic Pollutant Removal Technology Group Japan Atomic Energy Agency
-
Usami Noriko
Photon Factory Institute Of Materials Structure Science High Energy Accelerator Research Organizatio
-
Kobayashi Katsumi
Photon Factory Kek
-
Kanai Tatsuaki
Department Of Technical Support And Development Fundamental Technology Center National Institute Of
-
Kakizaki Takehiko
Dep. Of Radiation Oncology Gunma Univ. Graduate School Of Medicine
-
Wu Lijun
Key Lab. Of Ion Beam Bioengineering Inst. Of Plasma Physics Chinese Acad. Of Sciences
-
Suzuki Keiji
Atomic Bomb Disease Institute Graduate School Of Biomedical Sciences Nagasaki University
-
Kobayashi Katsumi
Photon Factory Imss. Kek
-
Kobayashi Yasuhiko
Department Of Agricultural Chemistry Faculty Of Agriculture The University Of Tokyo
-
Kobayashi Katsumi
Photon Factory Inst. Materials Structure Science Kek
-
Kobayashi Katsumi
Photon Fac. Nat'l Lab. High Energy Phsics
-
Shibuya Kei
Dep. Of Radiation Oncology Gunma Univ. Graduate School Of Medicine
-
Suzuki Keiji
Atomic Bomb Disease Institute Graduate School Of Biochemical Sciences Nagasaki University
-
Usami Noriko
Photon Factory Institute Of Materials Structure Science High Energy Accelerator Research Organizatio
-
Kobayashi Katsumi
Photon Factory Institute Of Materials Structure Science High Energy Accelerator Research Organizatio
-
Usami Noriko
Photon Factory Institute Of Materials Structure Science High Energy Accelerator Research Organizatio
-
Hamada Nobuyuki
Radiation Safety Research Center Nuclear Technology Research Laboratory Central Research Institute Of Electric Power Industry
-
Kobayashi Katsumi
Photon Factory Kek.
-
Yamashita Shunichi
Atomic Bomb Disease Institute Graduate School Of Biochemical Sciences Nagasaki University
-
Usami Noriko
Photon Factory Imss Kek
-
Kobayashi Yasuhiko
Advanced Science Research Center Japan Atomic Energy Research Institute
関連論文
- CT-based 3D Dose-Volume Parameter of the Rectum and Late Rectal Complication in Patients with Cervical Cancer Treated with High-Dose-Rate Intracavitary Brachytherapy
- Radiation Biology of Caenorhabditis elegans : Germ Cell Response, Aging and Behavior
- 前立腺癌に対する重粒子線治療 (AYUMI 重粒子線治療--最新治療エビデンス)
- SF-039-5 FDG-PETを用いた食道癌術前治療の組織学的CR判定 : 重粒子線vs.放射線(食道癌2,サージカルフォーラム,第109回日本外科学会定期学術集会)
- DP-086-7 食道扁平上皮癌に対する重粒子線治療と放射線化学療法施行例におけるFDG-PETによる効果判定(第108回日本外科学会定期学術集会)
- P-272 肺癌炭素線治療後長期生存例の治療前後のCT画像の変化についての検討(放射線療法,第49回日本肺癌学会総会号)
- 末梢型I期非小細胞肺癌に対する短期少分割炭素イオン線照射(荷電粒子線と定位照射, 第46回 日本肺癌学会総会)
- 14.前立腺癌重粒子線治療後の直腸出血に対するリスク因子解析(一般演題(有害事象および緩和),第35回群馬放射線腫瘍研究会抄録)
- P-10 重粒子線治療を行った非小細胞肺癌症例を対象とした血清プロテオーム解析(一般演題(ポスター) 分子生物学,第48回日本肺癌学会総会)
- Impact of the p53 Status of the Tumor Cells on the Effect of Reactor Neutron Beam Irradiation, with Emphasis on the Response of Intratumor Quiescent Cells
- Effects of p53 Status on Radiosensitivity and the Size of Hypoxic Fraction of Intratumor Total and QuiescentCell Populations
- Evaluation of the Potential of p-Boronophenylalaninol as a Boron Carrier in Boron Neutron Capture Therapy, Referring to the Effect on Intratumor Quiescent Cells
- Sensitizing Effect of the Phosphatidylinositol 3-kinase Inhibitor Wortmannin on Thermal Neutron Irradiation with or without Boron Compound
- BNCT Effect of BPA-ol, a Derivative of BPA, and Enhancement by Hyperthermia
- The Effects of Boron Neutron Capture Therapy on Liver Tumors and Normal Hepatocytes in Mice
- The Combined Effect of Electroporation and Borocaptate in Boron Neutron Capture Therapy for Murine Solid Tumors
- Changes in the Sensitivity of Intratumor Cells during Fractionated Tirapazamine Administration
- Usefulness of Tirapazamine as a Combined Agent in Chemoradiation and Thermo-chemoradiation Therapy at Mild Temperatures: Reference to the Effect on Intratumor Quiescent Cells
- Effect of Electroporation on Cell Killing by Boron Neutron Capture Therapy Using Borocaptate Sodium (^B-BSH)
- Time-course Change in Oxygenation Status of Total and Quiescent Cell Populations in Solid Tumors after γ-ray Irradiation, Tirapazamine Injection or Cisplatin Treatment
- Applicability of Combination with Tirapazamine in Boron Neutron Capture Therapy
- WS-9-6 直腸癌術後骨盤内局所再発に対する重粒子線治療(第107回日本外科学会定期学術集会)
- 直腸癌術後局所再発に対する重粒子線治療(大腸36, 第60回日本消化器外科学会総会)
- 自己組織化マップを用いた複数MRI画像からの腫瘍診断支援システムの開発
- WS-3-9 直腸癌術後の骨盤内局所再発に対する重粒子線治療(ワークショップ3 再発腫瘍の外科治療法および集学的治療方針-大腸・肛門-,第63回日本消化器外科学会総会)
- DP-158-1 直腸癌術後骨盤内局所再発に対する重粒子線治療の第II相試験(第108回日本外科学会定期学術集会)
- PD-5-6 直腸癌術後局所再発に対する重粒子線治療(パネルディスカッション5 切除不能・再発大腸癌に対する治療のベストチョイスは?,第62回日本消化器外科学会定期学術総会)
- がんの重粒子線治療
- PD-13-8 直腸癌術後局所再発に対する重粒子線治療の第I/II相試験
- Carbon Ion Radiotherapy : Clinical Experiences at National Institute of Radiological Science (NIRS)
- Urinary lodine Kinetics after Oral Loading of Potassium lodine
- 心臓原発血管肉腫に対する新しい治療法 : 炭素粒子放射線治療が有効であった1症例(日本循環器学会関東甲信越地方会第187回学術集会)
- Heavy ion CT system based on measurement of residual range distribution
- 硼素中性子捕捉療法時の患部近傍での放射化の評価
- 癌放射線治療の新たなパラダイム : 硼素中性子捕捉療法(癌細胞選択的放射線治療)の現状と将来
- 放射線誘発バイスタンダー効果におけるDMSOの影響
- Recent Advances in the Biology of Heavy-Ion Cancer Therapy
- 早期癌の重粒子線治療 (特集 放射線治療--切らずに治す早期の癌(2))
- 子宮癌に対する重粒子線治療の現状
- 食道癌に対する粒子線治療
- γ-ray Irradiation Enhanced Boron-10 Compound Accumulation in Murine Tumors
- A Simple and Rapid Method for Measurement of ^B-para-Boronophenylalanine in the Blood for Boron Neutron Capture Therapy Using Fluorescence Spectrophotometry
- Evaluation of Hypoxia-specific Cytotoxic Bioreductive Agent-sodium Borocaptate-^B Conjugates as ^B-carriers in Boron Neutron Capture Therapy
- S-4-4 From Regionally Selective Radiotherapy to Cellular Selective Radiotherapy(Aiming Further Development of Radiotherapy, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- Usefulness of Hexamethylenetetramine as an Adjuvant to Radiation and Cisplatin in the Treatment of Solid Tumors : its Independency of p53 Status
- 硼素中性子捕捉療法(Boron Neutron Capture Therapy;BNCT)の現状と将来展望--癌細胞選択照射がもたらすWhole Organ Radiotherapyの可能性 (特集 放射線治療:画像誘導放射線治療--IGRTを中心に)
- 肝、肺腫瘍に対する硼素中性子捕捉療法の試み (第41回京都大学原子炉実験所学術講演会 報文集)
- 硼素中性子捕捉療法におけるDose Volume Histgram(DVH)解析 (京都大学原子炉実験所第39回学術講演会 報文集)
- 熱中性子照射におけるDNA-PKcs阻害剤の生物学的効果
- 癌のホウ素中性子捕捉療法--捕獲反応α粒子による細胞選択的放射線治療
- 肝腫瘍に対する硼素中性子捕捉療法の基礎的検討 (第37回京都大学原子炉実験所学術講演会)
- マイクロコンピューター支援による高精度コロニーアッセイ法を用いたSCCVII腫瘍に対する低酸素細胞増感剤の効果の検討
- 京大原子炉における悪性神経膠腫に対する硼素中性子捕捉療法
- Potentially Lethal Damage Repair by Total and Quiescent Tumor Cells Following Various DNA-damaging Treatments
- Enhancement of Cisplatin Sensitivity of Quiescent Cells in Solid Tumors by Combined Treatment with Tirapazamine and Low-Temperature Hyperthermia
- 重粒子線を用いたがん治療の現状と展望 (特集 がん放射線療法の進歩と展望)
- PD-8-6 切除非適応後腹膜軟部悪性腫瘍に対する炭素イオン線治療の可能性(第108回日本外科学会定期学術集会)
- Proton dosimetry intercomparison based on the ICRU protocol
- Inhibition of repair of radiation-induced damage by mild temperature hyperthermia, referring to the effect on quiescent cell populations
- Effective Suppression of Bystander Effects by DMSO Treatment of Irradiated CHO Cells
- Evaluation of Micronucleus Induction in Lymphocytes of Patients Following Boron-Neutron-Capture-Therapy : A Comparison with Thyroid Cancer Patients treated with radioiodine
- 84 Effects of Mild Temperature Hyperthermia and p53 Status of Tumor Cells on the Size of Hypoxic Cell Fractions in Solid Tumors(Radiation sensitivities in cells & tissues, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- Effects of p53 Status and Wortmannin Treatment on Potentially Lethal Damage Repair, with Emphasis on the Response of Intratumor Quiescent Cells
- Usefulness of combined treatment with mild temperature hyperthermia and/or tirapazamine in the treatment of solid tumors : its independence of p53 status
- Development of Selective Irradiation Method to Blood Vessel
- Scintillation Detector System for Heavy Ion CT
- Precise Measurement of Range of Heavy Charged Particles
- Qualitative and quantitative difference in mutation induction between carbon- and neon-ion beams in normal human cells
- Targeted Heavy-Ion Microbeam Irradiation of the Embryo But Not Yolk in the Diapause-Terminated Egg of the Silkworm, Bombyx mori, Induces The Somatic Mutation
- Exploration of 'Over Kill Effect' of High-LET Ar-and Fe-ions by Evaluating the Fraction of Non-hit Cell and Interphase Death
- 40 Cyclin D1 Overexpression in Thyroid Tumors from the Radio-contaminated Area, and its Correlation with Pin1 and Aberrant beta-Catenin Expressions(Radiation carcinogenesis, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
- New Accelerator Facility for Carbon-Ion Cancer-Therapy
- Depth Encoding of Point-of-Interaction in Thick Scintillation Cameras
- 涙腺腫瘍に対する重粒子線治療 (特集 眼窩腫瘍アップデート)
- Initial Symptoms of Acute Radiation Syndrome in the JCO Criticality Accident in Tokai-mura
- Treatment of Patients who were Severely Exposed to Neutron and Gamma Radiation in the Recent Criticality Accident in Tokaimura
- Comparison of Radiobiological Characteristics of Epirliermal Neutron Beams between KUR and JRR4
- Effects of Ionizing Radiation on Locomotory Behavior and Mechanosensation in Caenorhabditis elegans
- Vanguards of Paradigm Shift in Radiation Biology: Radiation-Induced Adaptive and Bystander Responses
- Effect of Locally Targeted Carbon-Ion Microbeam Irradiation on Learning Behavior in Caenorhabditis elegans
- Radiation-Quality Dependent Bystander Effects Induced in Normal Human Fibroblasts by X-ray, Proton and Heavy-Ion Microbeams
- Microbeam Irradiation Facilities for Radiobiology in Japan and China
- 熱中性子照射におけるDNA-PKcs阻害剤の生物学的効果
- ホウ素中性子捕捉療法後の末梢血リンパ球におけるマイクロヌクレウスの出現頻度の評価
- Distinct Response of Irradiated Normal Human Fibroblasts and Their Bystander Cells to Heavy-Ion Radiation in Confluent Cultures
- Ceramide Induces Myogenic Differentiation and Apoptosis in Drosophila Schneider Cells
- Heavy-ion-induced bystander killing of human lung cancer cells : Role of gap junctional intercellular communication
- 8^ International Workshop on Microbeam Probes of Cellular Radiation Response
- An Alternative Mechanism for Radioprotection by Dimethyl Sulfoxide; Possible Facilitation of DNA Double-strand Break Repair
- Effectiveness of Carbon-ion Beams for Apoptosis Induction in Rat Primary Immature Hippocampal Neurons
- Development of New Cell Targeting System for Heavy-ion Microbeam Systems at JAEA-Takasaki
- Kinetic Analysis of Double-Strand Break Rejoining Reveals the DNA Reparability of γ-Irradiated Tobacco Cultured Cells
- Exposure of Normal Human Fibroblasts to Heavy-Ion Radiation Promotes Their Morphological Differentiation
- Intercellular and Intracellular Signaling Pathways Mediating Ionizing Radiation-Induced Bystander Effects
- Radiation-induced ICAM-1 Expression via TGF-β1 Pathway on Human Umbilical Vein Endothelial Cells ; Comparison between X-ray and Carbon-ion Beam Irradiation
- Greeting
- Evaluation of the Relative Biological Effectiveness of Carbon Ion Beams in the Cerebellum Using the Rat Organotypic Slice Culture System
- A Novel Modification Method of Peptides and Proteins by Anionic Dodecaborate Cage in Water
- ホウ素中性子捕捉療法
- 熱中性子照射におけるDNA-PKcs阻害剤の生物学的効果