Comparing conformal arc radiotherapy and helical tomotherapy in craniospinal irradiation planning

机译：在颅脊柱照射计划中比较保形弧线放射疗法和螺旋体层放射疗法

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Currently, radiotherapy treatment plan acceptance is based primarily on dosimetric performance measures. However, use of radiobiological analysis to assess benefit in terms of tumor control and harm in terms of injury to normal tissues can be advantageous. For pediatric craniospinal axis irradiation (CSI) patients, in particular, knowing the technique that will optimize the probabilities of benefit versus injury can lead to better long‐term outcomes. Twenty‐four CSI pediatric patients (median age 10) were retrospectively planned with three techniques: three‐dimensional conformal radiation therapy (3D CRT), volumetric‐modulated arc therapy (VMAT), and helical tomotherapy (HT). VMAT plans consisted of one superior and one inferior full arc, and tomotherapy plans were created using a 5.02 cm field width and helical pitch of 0.287. Each plan was normalized to 95% of target volume (whole brain and spinal cord) receiving prescription dose 23.4 Gy in 13 fractions. Using an in‐house MATLAB code and DVH data from each plan, the three techniques were evaluated based on biologically effective uniform dose (

\bar{\bar{D}}

), the complication‐free tumor control probability (

P_{+}

), and the width of the therapeutically beneficial range. Overall, 3D CRT and VMAT plans had similar values of

\bar{\bar{D}}

(24.1 and 24.2 Gy), while HT had a

\bar{\bar{D}}

slightly lower (23.6 Gy). The average values of the

P_{+}

index were 64.6, 67.4, and 56.6% for 3D CRT, VMAT, and HT plans, respectively, with the VMAT plans having a statistically significant increase in

P_{+}

. Optimal values of

\bar{\bar{D}}

were 28.4, 33.0, and 31.9 Gy for 3D CRT, VMAT, and HT plans, respectively. Although

P_{+}

values that correspond to the initial dose prescription were lower for HT, after optimizing the

\bar{\bar{D}}

prescription level, the optimal

P_{+}

became 94.1, 99.5, and 99.6% for 3D CRT, VMAT, and HT, respectively, with the VMAT and HT plans having statistically significant increases in

P_{+}

. If the optimal dose level is prescribed using a radiobiological evaluation method, as opposed to a purely dosimetric one, the two IMRT techniques, VMAT and HT, will yield largest overall benefit to CSI patients by maximizing tumor control and limiting normal tissue injury. Using VMAT or HT may provide these pediatric patients with better long‐term outcomes after radiotherapy.PACS number: 87.55.dk

机译：当前，放射疗法治疗计划的接受主要基于剂量学性能指标。然而，使用放射生物学分析来评估就肿瘤控制而言的益处以及就对正常组织的损害而言的损害可能是有利的。特别是对于小儿颅颈椎轴照射（CSI）患者，了解能够优化受益与伤害概率的技术可以带来更好的长期结果。回顾性规划了24例CSI儿科患者（中位年龄为10岁），采用以下三种技术：三维共形放射治疗（3D CRT），容积调制弧光治疗（VMAT）和螺旋断层扫描（HT）。 VMAT计划由一个上方和一个下方的全圆弧组成，并且使用5.02 cm的场宽和0.287的螺距创建了tomotherapy计划。将每个计划标准化为目标剂量（整个大脑和脊髓）的95％（分13份接受23.4 Gy处方药）。使用内部MATLAB代码和每个计划的DVH数据，基于生物学有效的统一剂量（

D¯？），无并发症的肿瘤控制概率（P+）和治疗有效范围的宽度。总体而言，3D CRT和VMAT计划的< mrow> D¯¯< /mo>（24.1和24.2 Gy），而HT具有D。？稍低（23.6 Gy）。{<对于3D，mi mathvariant =“ normal”> P}_{+指数分别为64.6、67.4和56.6％ CRT，VMAT和HT计划，而VMAT计划在P+。D¯¯< / mrow>对于3D CRT，VMAT和HT计划分别为28.4、33.0和31.9 Gy。尽管P+值对于HT较低，D¯¯处方级别，最佳<割>}

著录项

期刊名称 Journal of Applied Clinical Medical Physics
作者
Pamela A. Myers; Panayiotis Mavroidis; Nikos Papanikolaou; Sotirios Stathakis;
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作者单位

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年(卷),期 2014(15),5
年度 2014
页码 12–28
总页数 17
原文格式 PDF
正文语种
中图分类放射医学;影像诊断学;
关键词
radiation biology pediatric craniospinal axis irradiation biologically effective uniform dose complication‐free tumor control probability;

机译：放射生物学;儿科;颅颈椎轴照射;生物学有效均匀剂量;无并发症的肿瘤控制概率;

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专利

1. Comparing conformal, arc radiotherapy and helical tomotherapy in craniospinal irradiation planning [J] . Myers Pamela A., Mavroidis Panayiotis, Papanikolaou Nikos, Journal of applied clinical medical physics / . 2014,第5期

机译：在颅脊柱照射计划中比较保形，弧线放射疗法和螺旋体层放射疗法
2. High-precision radiotherapy for craniospinal irradiation: evaluation of three-dimensional conformal radiotherapy, intensity-modulated radiation therapy and helical TomoTherapy. [J] . Sharma DS, Gupta T, Jalali British Journal of Radiology . 2009,第984期

机译：颅骨放射线的高精度放射疗法：三维共形放射疗法，强度调制放射疗法和螺旋TomoTherapy的评估。
3. A Comparative Planning Analysis and Integral Dose of Volumetric Modulated Arc Therapy, Helical Tomotherapy, and Three-dimensional Conformal Craniospinal Irradiation for Pediatric Medulloblastoma [J] . Samir Patel, Suzanne Drodge, Ama Jacques, Journal of medical imaging and radiation sciences . 2015,第2期

机译：小儿髓母细胞瘤的容积调制弧治疗，螺旋断层扫描和三维适形颅脊髓照射的比较规划分析和整体剂量
4. Integral Dose in Three-Dimensional Conformal Radiotherapy, Intensity-Modulated Radiotherapy, and Helical Tomotherapy [C] . Ruijie Yang, Shouping Xu, Junjie Wang World congress on medical physics and biomedical engineering;International congress of the IUPESM . 2011

机译：三维适形放疗，强度调制放疗和螺旋断层放疗中的整体剂量
5. Treatment Planning Quality Analysis for Accelerated Partial-Breast Irradiation Using 3D Conformal Radiotherapy [D] . Swanson, William. 2019

机译：3D全成形放射治疗加速偏乳辐射治疗规划质量分析
6. High-precision radiotherapy for craniospinal irradiation: evaluation of three-dimensional conformal radiotherapy intensity-modulated radiation therapy and helical TomoTherapy [O] . D S Sharma, T Gupta, R Jalali, 2009

机译：颅骨放射线的高精度放射疗法：三维共形放射疗法强度调制放射疗法和螺旋TomoTherapy的评估
7. High-precision radiotherapy for craniospinal irradiation: evaluation of three-dimensional conformal radiotherapy, intensity-modulated radiation therapy and helical TomoTherapy [O] . D S Sharma, T Gupta, R Jalali, 2009

机译：高精度放疗颅辐射：三维保形放疗的评价，强度调制的放射治疗和螺旋疗法

Comparing conformal arc radiotherapy and helical tomotherapy in craniospinal irradiation planning

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