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Evaluation of dose prediction error and optimization convergence error in four‐dimensional inverse planning of robotic stereotactic lung radiotherapy

机译：立体定向肺放疗二维逆向计划中剂量预测误差和优化收敛误差的评估

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摘要

Inverse optimization of robotic stereotactic lung radiotherapy is typically performed using relatively simple dose calculation algorithm on a single instance of breathing geometry. Variations of patient geometry and tissue density during respiration could reduce the dose accuracy of these 3D optimized plans. To quantify the potential benefits of direct four‐dimensional (4D) optimization in robotic lung radiosurgery, 4D optimizations using 1) ray‐tracing algorithm with equivalent path‐length heterogeneity correction (

{4 EPL}^{opt}

), and 2) Monte Carlo (MC) algorithm (

{4 MC}^{opt}

), were performed in 25 patients. The

{4 EPL}^{opt}

plans were recalculated using MC algorithm (

{4 MC}^{recal}

) to quantify the dose prediction errors (DPEs). Optimization convergence errors (OCEs) were evaluated by comparing the

{4 MC}^{recal}

and

{4 MC}^{opt}

dose results. The results were analyzed by dose‐volume histogram indices for selected organs. Statistical equivalence tests were performed to determine the clinical significance of the DPEs and OCEs, compared with a 3% tolerance. Statistical equivalence tests indicated that the DPE and the OCE are significant predominately in

{GTV D}_{98 %}

. The DPEs in

V_{20}

of lung, and

D_{2 %}

of cord, trachea, and esophagus are within 1.2%, while the OCEs are within 10.4% in lung

V_{20}

and within 3.5% in trachea

D_{2 %}

. The marked DPE and OCE suggest that 4D MC optimization is important to improve the dosimetric accuracy in robotic‐based stereotactic body radiotherapy, despite the longer computation time.PACS numbers: 87.53.Ly, 87.55.km

机译：机器人立体定向肺部放疗的逆向优化通常是使用相对简单的剂量计算算法对单个呼吸几何实例进行的。呼吸期间患者几何形状和组织密度的变化可能会降低这些3D优化计划的剂量准确性。为了量化直接二维（4D）优化在机器人肺部放射外科手术中的潜在利益，使用1）光线跟踪算法和等效路径长度异质性校正（

4EPLopt），以及2）蒙特卡罗（MC）算法（4MC< mrow>opt），共25例。4 <使用MC算法重新计算/ mn>EPLopt计划（4MCrecal）来量化剂量预测误差（DPE）。通过比较< msup> 4MCrecal和<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ nlm-math-6”溢出=“ scroll”>4MCopt剂量结果。通过剂量-体积直方图索引对选定器官进行分析。进行了统计等效性测试，以确定DPE和OCE的临床意义，而耐受性为3％。统计等效性测试表明，DPE和OCE在GTV D98％。V20和

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期刊名称 Journal of Applied Clinical Medical Physics
作者
Mark K.H. Chan; Dora L.W. Kwong; Anthony Tong; Eric Tam; Sherry C.Y. Ng;
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作者单位

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年(卷),期 2013(14),4
年度 2013
页码 182–195
总页数 14
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
4D optimization Monte Carlo dose calculation CyberKnife SBRT;

机译：4D优化;蒙特卡洛剂量计算;赛博刀;SBRT;

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专利

1. Evaluation of dose prediction error and optimization convergence error in four‐dimensional inverse planning of robotic stereotactic lung radiotherapy [J] . Mark K.H. Chan, Dora L.W. Kwong, Anthony Tong, Journal of applied clinical medical physics / . 2013,第4期

机译：立体定向肺放疗三维逆向规划中剂量预测误差和优化收敛误差的评估
2. Evaluation of dose prediction errors and optimization convergence errors of deliverable-based head-and-neck IMRT plans computed with a superposition/convolution dose algorithm. [J] . Mihaylov IB, Siebers JV Medical Physics . 2008,第8期

机译：使用叠加/卷积剂量算法计算的基于可交付结果的头颈IMRT计划的剂量预测误差和优化收敛误差的评估。
3. Three-dimensional conformal versus intensity-modulated radiotherapy dose planning in stereotactic radiotherapy: Application of standard quality parameters for plan evaluation. [J] . Grzadziel A, Grosu AL, Kneschaurek P International Journal of Radiation Oncology, Biology, Physics . 2006,第4Suppla期

机译：立体定向放射治疗中的三维共形与强度调制放射治疗剂量计划：标准质量参数在计划评估中的应用。
4. Recommendations for dose calculations of lung cancer treatment plans treated with stereotactic ablative body radiotherapy (SABR) [C] . S Devpura, M S Siddiqui, D Chen, ICCR . 2014

机译：肺癌治疗计划剂量计算的建议（SABR）治疗肺癌治疗计划（SABR）
5. The prediction of dimensional errors and machining planning for sculptured surface productions using ball-end milling. [D] . Lim, Ee Meng. 1995

机译：使用球头立铣刀预测雕刻表面的尺寸误差和加工计划。
6. Evaluation of dose prediction errors and optimization convergence errors of deliverable-based head-and-neck IMRT plans computed with a superposition∕convolution dose algorithm [O] . I. B. Mihaylov, J. V. Siebers -1

机译：叠加卷积剂量算法计算的基于可交付项的头颈IMRT计划的剂量预测误差和优化收敛误差的评估
7. Evaluation of dose prediction error and optimization convergence error in four-dimensional inverse planning of robotic stereotactic lung radiotherapy [O] . Kwong DLW, Tam E, Ng SCY, 2013

机译：机器人立体定向肺放疗四维逆向计划中剂量预测误差和优化收敛误差的评价

Evaluation of dose prediction error and optimization convergence error in four‐dimensional inverse planning of robotic stereotactic lung radiotherapy

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