Comparison of Pencil Beam Scanning Proton- and Photon-Based Techniques for Carcinoma of the Parotid [0.03%]
腮腺癌 proton pencil beam 流与基于光子的放疗技术比较
Samuel Swisher-McClure,Boon-Keng Kevin Teo,Maura Kirk et al.
Samuel Swisher-McClure et al.
Purpose: To report the dosimetric advantages of a comparison between pencil beam scanning (PBS) proton therapy versus intensity-modulated radiation therapy (IMRT) for parotid gland cancers. ...
Anteriorly Oriented Beam Arrangements with Daily in Vivo Range Verification for Proton Therapy of Prostate Cancer: Rectal Toxicity Rates [0.03%]
前列腺癌质子治疗的前方布线与每日体内射程验证:直肠毒副反应发生率
Jerimy C Polf,Michael Chuong,Bin Zhang et al.
Jerimy C Polf et al.
Purpose: To model whether in vivo range verification could reduce high-grade rectal toxicity for patients with prostate cancer treated with pencil beam scanning proton therapy by allowing novel proton beam arrangements co...
Variations in Proton Therapy Coverage in the State of Texas: Defining Medical Necessity for a Safe and Effective Treatment [0.03%]
得州质子治疗的地域差异:如何界定临床必需以确保安全有效的治疗?
Nikhil G Thaker,Ankit Agarwal,Matthew Palmer et al.
Nikhil G Thaker et al.
Purpose: The definition of medical necessity and indications for coverage of proton beam therapy (PBT) for the treatment of cancer can vary greatly among different professional societies (PSs) and payors. Variations in po...
The Evolution of Radiation Therapy for Retinoblastoma: The MD Anderson Cancer Center Experience [0.03%]
马达根德癌症中心视网膜母细胞瘤放射治疗的变迁
Ankit Agarwal,Nikhil G Thaker,Bouchra Tawk et al.
Ankit Agarwal et al.
Purpose: The role of radiation therapy (RT) for retinoblastoma (Rb) has significantly evolved from first-line to salvage therapy. The objectives of our study were to evaluate efficacy of proton RT (PRT) and other advanced...
Beam Delivery Method for Carbon-ion Radiotherapy with the Heavy-ion Medical Accelerator in Chiba [0.03%]
基于重离子医疗加速器的碳离子束输送方法研究
Koji Noda
Koji Noda
The heavy-ion medical accelerator in Chiba (HIMAC), Japan, has been using carbon-ion radiation therapy since 1994, and the number of patients treated with this technique has reached around 10,000. The HIMAC employs single beam wobbling as a...
The Ion-Beam Radiation Oncology Center in Kanagawa (i-ROCK) Carbon Ion Facility at the Kanagawa Cancer Center [0.03%]
神奈川县癌症中心的Kanagawa离子束放射肿瘤学中心(i-ROCK)碳离子设施
Yuko Nakayama,Shinichi Minohara,Tetsuo Nonaka et al.
Yuko Nakayama et al.
Development of Clinical Programs for Carbon Ion Beam Therapy at MedAustron [0.03%]
MedAustron质子和碳离子临床治疗项目的开发
Markus Stock,Petra Georg,Ramona Mayer et al.
Markus Stock et al.
Sho Kudo,Yoshiyuki Shioyama,Hiroaki Suefuji et al.
Sho Kudo et al.
Monte Carlo Simulations of Particle Interactions with Tissue in Carbon Ion Therapy [0.03%]
碳离子治疗中粒子与组织相互作用的蒙特卡洛模拟研究进展
George Dedes,Katia Parodi
George Dedes
Monte Carlo simulations are increasingly considered the most accurate tool for calculating particle interactions with tissue. This contribution reviews the basics of Monte Carlo methods and their emerging role for application to several are...