In Silico Comparison of Photon Versus Proton Based Stereotactic Body Radiotherapy With Increasing Maximum Peak Dose for Treatment of Primary Renal Cell Carcinoma [0.03%]
基于光子和质子的立体定向体放射治疗初期肾细胞癌的剂量递增的最大峰值剂量的仿真比较
Sherif G Shaaban,Hao Chen,Anh Tran et al.
Sherif G Shaaban et al.
Purpose: Photon based Stereotactic Body Radiotherapy (PH-SBRT) has emerged as a promising option for treatment of primary renal cell carcinoma (RCC), however is associated with decrements in long-term kidney function and ...
Benchmarking Modern Day Pencil Beam Scanning Proton Therapy Treatment Times: Insights From Real Time Location Service Treatment Time Data [0.03%]
现代铅笔束扫描质子治疗时间基准:来自实时定位服务治疗时间数据的见解
Kristen McConnell,Andrew Wroe,Maria Valladares et al.
Kristen McConnell et al.
Purpose: Collecting consistent and accurate treatment time data is challenging, particularly when relying on manual records or predictive models. Our center uses a Real-Time Location System (RTLS), which provides precise,...
Irini Yacoub,Achraf Shamseddine,Daniel Kallini et al.
Irini Yacoub et al.
Purpose/objectives: Adenoid cystic carcinoma (ACC) of the head and neck is a rare malignancy with a prolonged but infiltrative course, marked by perineural invasion and high risk of local recurrence and distant metastases...
Optimizing QACT Frequency in Proton Therapy: Analysis of Standard Guidelines Across Treatment Sites [0.03%]
质子治疗中优化QACT频率的标准化指南分析
Rachel B Ger,Todd R McNutt,Curtiland Deville et al.
Rachel B Ger et al.
Purpose: Anatomical changes during proton therapy are typically monitored using quality assurance computed tomography (QACT) scans. However, excessive QACTs can increase patient burden, resource use, and health care costs...
Automated Treatment Plan Integrity Verification for Proton Therapy: Enhancing Error Detection and Workflow Efficiency [0.03%]
质子治疗的自动化治疗计划完整性验证:增强错误检测和工作流程效率
Jiyeon Park,Emily Feldman,Mark Artz et al.
Jiyeon Park et al.
Purpose: Most automatic error detection studies in radiation therapy focus on photon therapy, with limited attention to proton therapy. This study developed and validated an automated framework for initial proton therapy ...
Bystander Effects in Osteoblasts and Osteoclasts: Comparison Between X- and Proton-Irradiation [0.03%]
体细胞效应在骨形成细胞和骨吸收细胞中的作用:X射线与质子辐射的比较
Noriyuki Okonogi,Yukako S Otani,Keisuke Otani et al.
Noriyuki Okonogi et al.
Purpose: This study investigated radiation-induced bystander responses (RIBR) in osteoblasts and osteoclasts and compared x-rays with protons regarding RIBR effects. ...
Definitive Proton Beam Therapy for Second Primary Non-small Cell Lung Cancer After Pneumonectomy [0.03%]
pneumonectomy术后第二原发非小细胞肺癌 definitive proton治疗
Masatoshi Nakamura,Kayoko Ohnishi,Toshiyuki Okumura et al.
Masatoshi Nakamura et al.
Purpose: To investigate the outcome of definitive proton beam therapy (PBT) for second primary non-small cell lung cancer after pneumonectomy. Patients an...
Long-Term Tumor Control After Carbon Ion Radiation Therapy Boost in Locally Advanced Cervical Clear Cell Adenocarcinoma [0.03%]
碳离子放疗治疗局部晚期宫颈透明细胞腺癌的长期肿瘤控制效果
Amelia Barcellini,Alessandro Vai,Eloisa Arbustini et al.
Amelia Barcellini et al.
Clear cell adenocarcinoma of the uterine cervix is a rare and aggressive subtype of cervical cancer, typically resistant to conventional radiation therapy and lacking dedicated treatment guidelines. We present the case of a young patient wi...
Worst-Case Robustness Evaluation Methods for IMPT: A Critical Comparison [0.03%]
强度模态声波导向中的自适应稀疏传输矩阵方法
Chunbo Liu,Chris J Beltran,Jiajian Shen et al.
Chunbo Liu et al.
Purpose: Robustness evaluation is routinely used in clinics to ensure the intended dose delivery for intensity-modulated proton therapy (IMPT). Various methods have been proposed, but there is no consensus on which method...
Assessing the Relative Contribution of DSB Repair Proteins as a Function of LET [0.03%]
作为函数的LET评估DSB修复蛋白的相对贡献
Francisco D C Guerra Liberal,Shannon J Thompson,Lydia L Gardner et al.
Francisco D C Guerra Liberal et al.
Purpose: Particle therapy is gaining popularity due to its dosimetric benefits. Particle radiation also has a higher linear energy transfer (LET) than X-rays, leading to more complex DNA damage and a higher relative biolo...