2297 件ヒット (0.017秒):
放射線治療を安全かつ適正に施行するに当たり、放射線治療実施施設での実際の治療現場での研修を通し、各種放射線治療計画や照射法に習熟することを目的とします。
/In order to safely and appropriately perform radiotherapy, the purpose is to become familiar with various radiotherapy plans and irradiation methods through training at the actual treatment site at the radiotherapy implementation facility.
治療計画装置を用いた定位放射線治療や強度変調放射線治療、密封小線源治療の治療計画作成、治療計画の確認方法の習得、患者固定、同期照射など臓器移動に対する対策、on-board imagerを用いた透視や、コーンビームCTを用いた患者セッティング精度の確認、精度解析など照射精度管理に関する諸事項、放射線治療装置やシミュレータ等機器のQA・QC、線量検証・解析方法、重粒子線治療、核医学治療における放射線防護、線量評価、機器校正、定量イメージングなどを実際の臨床現場や講義で学習する。
/Students will learn the following subjects in actual clinical practice and lecuture.
Planning stereotactic radiotherapy, intensity-modulated radiotherapy, and brachytherapy using treatment planning devices; learning to confirm treatment plans; patient immobilization; countermeasures against organ movement such as synchronized irradiation; checking patient setting accuracy and irradiation accuracy using fluoroscopy and cone beam CT using an on-board imager; and various aspects of radiation control; QA/QC of radiotherapy equipment and simulator equipment; dose verification and analysis methods; heavy ion radiotherapy; radiation protection, dosimetry, equipment calibration, and quantitative imaging in nuclear medicine therapy.
以下の項目で臨地トレーニングから研究への発展も視野にいれた専門的な技術学の習得を目標とする。治療計画装置を用いた定位放射線治療や強度変調放射線治療、密封小線源治療の治療計画作成、治療計画の確認方法の習得、患者固定、同期照射など臓器移動に対する対策、on-board imagerを用いた透視や、コーンビームCTを用いた患者セッティング精度の確認、精度解析など照射精度管理に関する諸事項、ライナックやXシミュレータ等機器のQA・QC、線量検証・解析方法、重粒子線治療、核医学治療における放射線防護、線量評価、機器校正、定量イメージング等を実際の臨床現場や講義で学習する。
/To acquire specialized technical knowledge with a view to developing from on-site training to research. Students will learn the following subjects in actual clinical practice and lecture. Planning stereotactic radiotherapy, intensity-modulated radiotherapy, and brachytherapy using treatment planning systems; acquisition of confirmation method of treatment plan; patient immobilization; countermeasures against organ movement such as synchronized irradiation; verification patient setting precision and irradiation accuracy using fluoroscopy and cone beam CT using on-board imager; and various aspects concerning irradiation accuracy management; QA/QC of radiotherapy equipment and simulator equipment; dose verification and analysis methods; heavy ion radiotherapy; radiation protection, dosimetry, equipmemnt calibration, and quantitative imaging in nuclear medicine therapy.
治療計画装置を用いた定位放射線治療や強度変調放射線治療、密封小線源治療の治療計画作成、治療計画の確認方法の習得、患者固定、同期照射など臓器移動に対する対策、on-board imagerを用いた透視や、コーンビームCTを用いた患者セッティング精度の確認、精度解析など照射精度管理に関する諸事項、放射線治療装置やシミュレータ等機器のQA・QC、線量検証・解析方法、重粒子線治療、核医学治療における放射線防護、線量評価、機器校正、定量イメージングなどを実際の臨床現場や講義で学習する。
/Students will learn the following subjects in actual clinical practice and lecuture.
Planning stereotactic radiotherapy, intensity-modulated radiotherapy, and brachytherapy using treatment planning devices; learning to confirm treatment plans; patient immobilization; countermeasures against organ movement such as synchronized irradiation; checking patient setting accuracy and irradiation accuracy using fluoroscopy and cone beam CT using an on-board imager; and various aspects of radiation control; QA/QC of radiotherapy equipment and simulator equipment; dose verification and analysis methods; heavy ion radiotherapy; radiation protection, dosimetry, equipment calibration, and quantitative imaging in nuclear medicine therapy.
手術や薬物治療と並び、放射線治療はがん治療の三本柱の重要な一つを担っています。患者の高齢化と、それに伴う基礎疾患の増加によって、手術や薬物治療による治療が困難な症例が増えており、身体的負担の少ない放射線治療の需要は増しています。「がん」を治す放射線治療の意義と最新の技術を理解し、放射線治療装置、照射法、線量分布測定法、線量分布計算法等の知識を習得します。
/Along with surgery and drug therapy, radiation therapy plays an important role in the three pillars of cancer treatment. The aging of patients and the associated underlying diseases are increasing the number of cases where surgery and treatment with drugs are difficult, and the demand for radiation therapy with less physical burden is increasing. Aim of this lecture is to understand the significance and the latest technology of radiotherapy to cure cancer, and acquire knowledge of radiotherapy equipment, irradiation technique, dose distribution measurement method, and dose distribution calculation method.