Microdosimetric Approach to NIRS-defined Biological Dose Measurement for Carbon-ion Treatment Beam

スポンサーリンク

概要

• 論文の詳細を見る

• The RBE-weighted absorbed dose, called "biological dose," has been routinely used for carbon-ion treatment planning in Japan to formulate dose prescriptions for treatment protocols. This paper presents a microdosimetric approach to measuring the biological dose, which was redefined to be derived from microdosimetric quantities measured by a tissue-equivalent proportional counter (TEPC). The TEPC was calibrated in 60Co gamma rays to assure a traceability of the TEPC measurement to Japanese standards and to eliminate the discrepancies among matching counters. The absorbed doses measured by the TEPC were reasonably coincident with those measured by a reference ionization chamber. The RBE value was calculated from the microdosimetric spectrum on the basis of the microdosimetric kinetic model. The biological doses obtained by the TEPC were compared with those prescribed in the carbon-ion treatment planning system. We found that it was reasonable for the measured biological doses to decrease with depth around the rear SOBP region because of beam divergence, scattering effect, and fragmentation reaction. These results demonstrate that the TEPC can be an effective tool to assure the radiation quality in carbon-ion radiotherapy.

• 2011-01-16

著者

• MATSUFUJI Naruhiro

  Research Center of Charged Particle Therapy, National Institute of Radiological Sciences

• Kanai T

  Department Of Accelerator And Medical Physics National Institute Of Radiological Sciences

• Kanai Tatsuaki

  茨城県立医療大学 放射線技術科学科

• Hiraoka Takeshi

  Nirs

• KANAI Tatsuaki

  NIRS

• Kase Yuki

  Research Center for Charged Particle Therapy, National Institute of Radiological Sciences

• Kanai Tatsuaki

  Heavy Ion Medical Center, Gunma University

• Sakama Makoto

  College of Industrial Technology, Nihon University

• TAMESHIGE Yuji

  Office for Development of Proton Therapy Center, Regional Health Services Division, Department of He

• HIMUKAI Takeshi

  Research Center for Charged Particle Therapy, National Institute of Radiological Sciences

• NOSE Hiroyuki

  IHI Corporation

• Kanai Tatsuaki

  Department Of Accelerator And Medical Physics Research Center For Charged Particle Therapy National

• Kanai Tatsuaki

  Department Of Medical Physics National Institute Of Radiological Sciences

• Kamata Tadashi

  Research Center Hospital For Charged Particle Therapy National Institute Of Radiological Sciences

• Matsufuji Naruhiro

  Department Of Accelerator And Medical Physics Research Center For Charged Particle Therapy National

• Matsufuji Naruhiro

  Department Of Accelerator Physics And Engineering National Institute Of Radiological Sciences

• Matsufuji Naruhiro

  Div. Of Accel. Phys. And Eng. Nat'l. Inst. Of Radiol. Sci.

• Kanai Tatsuaki

  Div. Acce. Res. Natl. Inst. Radiol Sci.

• Himukai Takeshi

  筑波大学数理物質科学研究科電子・物理工学専攻

• Sakama Makoto

  College Of Industrial Technology Nihon University

• Tameshige Yuji

  Office For Development Of Proton Therapy Center Regional Health Services Division Department Of Heal

• Matsufuji Naruhiro

  Research Center For Charged Particle Therapy National Institute Of Radiological Sciences

• Kase Yuki

  Research Center For Charged Particle Therapy National Institute Of Radiological Sciences

• Kanai Tatsuaki

  Heavy Ion Medical Center Gunma Univ.

• Himukai Takeshi

  Research Center For Charged Particle Therapy National Institute Of Radiological Sciences

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
• 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)
• 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
• 直腸癌術後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)
• 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
• Heavy Ion CT Reconstructed from Residual Range Distribution Measured by Range Shifter and Fluoroscopy System
• Sensitometric Properties in Heavy Ion Radiography
• Residual range distribution measured by heavy ion radiography
• 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
• 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)
• Microdosimetric approach to NIRS-defined biological dose measurement for carbon-ion treatment beam
• Response of human tumor cells in plateau phase and grown as spheroids to carbon beam irradiation.
• Proton dosimetry intercomparison based on the ICRU protocol
• Experimental Study ot Heavy Ion Radialion using Monkcy and Phantom
• Irradiation system and physical measurements for heavy-ion radiotherapy.
• Evaluation of Late Radiation Damage of Normal Tissues in Mouse Hind Legs after Irradiation with Carbon Beams
• RBE and Dose Distribution of Heavy Ion Beams.
• Dose response relations in acute cell death of pancreatic islets after irradiation of golden hamster with X-ray ,7OMeV proton and 290MeV carbon beams.
• Morphological Evaluation of Normal Tissue Damage after Neon Beam Irradiation in Mouse Hind Legs
• Scintillation Detector System for Heavy Ion CT
• Precise Measurement of Range of Heavy Charged Particles
• Comprehensive Study on the Fragment Reaction of Relativistic Heavy Charged Particles for Heavy-Ion Radiotherapy
• LET spectra of HZE particle beams in a tissue-equivalent material
• Measurements of HIMAC Therapy Beam Qualities
• Skin reaction after single doses of HIMAC Carbon-12 Spread- Out-Bragg-Peak
• Qualitative and quantitative difference in mutation induction between carbon- and neon-ion beams in normal human cells
• Spectra of Linear Energy Transfer vs. Relative Biological Effectiveness for Accelerated Heavier Ions upon Clonogenic Survival of V79 Cells
• Analysis of Mutations in the Human HPRT Gene induced by High LET Heavy-ion Irradiation
• RBE and OER for Cell Killing upon V79 Cells by Heavy-Ion Beams at a Very High LET Region
• LET Dependence of Interphase Cell-Death Induction by Accelerated Heavy-Ions
• Dependence of Interphase Cell-Death Induction on LET Values of Accelerated Heavy-Ions
• Chromosome Aberrations Induced by Neon lon Beams Produced by RIKEN Ring Cyclotron in human lymphocytes of blood.
• Exploration of 'Over Kill Effect' of High-LET Ar-and Fe-ions by Evaluating the Fraction of Non-hit Cell and Interphase Death
• Dosimetry for heavy-ion radiation fields of argon, iron and kripton beams.
• Effect of Heavy Ion Exposure on Cell Cycle Progression.
• Effect of Exposure of Heavy Ion Beams on G2 Arrest.
• New Accelerator Facility for Carbon-Ion Cancer-Therapy
• Depth Encoding of Point-of-Interaction in Thick Scintillation Cameras
• Mutation induction on normal human cells by split dose irradiation with carbon-ion beams
• Cell death on human cells by split dose irradiation with carbonion beams.
• 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)
• Heavy ion radiography
• 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
• S3-7 小型末梢非小細胞肺癌に対する非外科的根治術 : 重粒子(炭素イオン)線治療(小型肺癌の診断と治療, 第30回日本呼吸器内視鏡学会学術集会)
• Development of multichanel Ion Chamber for measurement of 3 dimensional dose Distributions of Heavy-Ion Therapeutic Beam in patients
• Reconstruction of Dose Calculation on CT-Image from Dose Distribution in Water Phantom
• Numerical Study on Range Measurement System with Positron Camera
• The Spot Scanning Irradiation with ^C Beams
• A Proton Dose Calculation Code for Treatment Planning Based on the Pencil Beam Algorithm
• Analysis of the Penumbra for Uniform Irradiation Fields Delivered by a Wobbler method
• 19.前立腺癌に対する重粒子線治療(第2相臨床試験)(一般演題(治療成績),第34回群馬放射線腫瘍研究会抄録)
• 22.眼球脈絡膜悪性黒色腫に対する炭素イオン線治療(新たな治療の試み,一般演題,第33回群馬放射線腫瘍研究会抄録)
• 13. 前立腺癌に対する重粒子線治療(第31回群馬放射線腫瘍研究会抄録)
• 5. 前立腺癌の重粒子線治療におけるQOL調査(第31回群馬放射線腫瘍研究会抄録)
• 新しい医療技術 重粒子線(炭素イオン線)を用いた転移性骨腫瘍の治療
• Measurements of Dose-Averaged Linear Energy Transfer Distributions in Water Using CR-39 Plastic Nuclear Track Detector for Therapeutic Carbon Ion Beams
• Effect of Heavy Ion Exposure on Cell Cycle Checkpoints.
• The isoeffect dose of carbon ions depends on LET and fractionation
• Reoxygenation of artificially hypoxic tumors
• Clinical Results of Carbon Ion Radiotherapy at NIRS
• 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
• 粒子線治療--重粒子線 (頭頸部の診断と治療update) -- (放射線治療)
• Optimization of Spiral-Wobbler System for Heavy-Ion Radiotherapy
• Specification of Carbon Ion Dose at the National Institute of Radiological Sciences (NIRS)
• Single Cell Irradiation System at the Wakasa Wan Energy Research Center
• 235 Synchrotron X-ray Microbeam Irradiation System : 2. Performance Test by Cell Irradiation Experiments(Micro-beam irradiation, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
• 216 Cell Inactivation and Double Strand Breaks Induction in V79 cells by Monochromatic X rays on Phosphorus K-shell Absorption peak(Physics, chemistry and DNA damage, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society)
• Irradiation System for HIMAC
• Microdosimetric Approach to NIRS-defined Biological Dose Measurement for Carbon-ion Treatment Beam
• 放射線療法 重粒子線治療 (前立腺癌(第2版)--基礎・臨床研究のアップデート) -- (臨床 前立腺癌の治療)
• 重粒子線治療 (特集 知っておきたいがん放射線治療の知識)
• SY4-4 腎癌に対する重粒子線治療経験(4.腎癌治療の課題と新なる展開,シンポジウム,第99回日本泌尿器科学会総会)
• Relation between Lineal Energy Distribution and Relative Biological Effectiveness for Photon Beams according to the Microdosimetric Kinetic Model
• 会員のための企画 実質臓器悪性腫瘍に対する局所療法 重粒子線を用いたがん治療の現状と展望
• Analytical Design Method of Optimum Ridge Filters for Wobbled and Collimated Proton Beams
• 重粒子線を用いたがん治療の現状と展望(実質臓器悪性腫瘍に対する局所療法,会員のための企画)
• 重粒子線治療臨床研究の将来展望 (特集 ここまで来た重粒子線治療 : 現状と将来展望) -- (重粒子線治療研究の過去,現在,未来)
• 放医研における重粒子線治療の臨床成果 (特集 ここまで来た重粒子線治療 : 現状と将来展望) -- (重粒子線治療研究の過去,現在,未来)
• Preliminary Calculation of RBE-weighted Dose Distribution for Cerebral Radionecrosis in Carbon-ion Treatment Planning
• Carbon-ion radiation therapy for prostate cancer

もっと見る 閉じる

スポンサーリンク