各向异性解析算法和笔形束卷积算法在高密度非均匀性界面之外的剂量预测准确性。

Dose prediction accuracy of anisotropic analytical algorithm and pencil beam convolution algorithm beyond high density heterogeneity interface.

作者信息

Rana Suresh B

机构信息

Department of Radiation Oncology, Arizona Center for Cancer Care, Peoria, AZ, USA.

出版信息

South Asian J Cancer. 2013 Jan;2(1):26-30. doi: 10.4103/2278-330X.105888.

DOI:10.4103/2278-330X.105888

PMID:24455541

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3876628/

Abstract

PURPOSE

It is well known that photon beam radiation therapy requires dose calculation algorithms. The objective of this study was to measure and assess the ability of pencil beam convolution (PBC) and anisotropic analytical algorithm (AAA) to predict doses beyond high density heterogeneity.

MATERIALS AND METHODS

An inhomogeneous phantom of five layers was created in Eclipse planning system (version 8.6.15). Each layer of phantom was assigned in terms of water (first or top), air (second), water (third), bone (fourth), and water (fifth or bottom) medium. Depth doses in water (bottom medium) were calculated for 100 monitor units (MUs) with 6 Megavoltage (MV) photon beam for different field sizes using AAA and PBC with heterogeneity correction. Combinations of solid water, Poly Vinyl Chloride (PVC), and Styrofoam were then manufactured to mimic phantoms and doses for 100 MUs were acquired with cylindrical ionization chamber at selected depths beyond high density heterogeneity interface. The measured and calculated depth doses were then compared.

RESULTS

AAA's values had better agreement with measurements at all measured depths. Dose overestimation by AAA (up to 5.3%) and by PBC (up to 6.7%) was found to be higher in proximity to the high-density heterogeneity interface, and the dose discrepancies were more pronounced for larger field sizes. The errors in dose estimation by AAA and PBC may be due to improper beam modeling of primary beam attenuation or lateral scatter contributions or combination of both in heterogeneous media that include low and high density materials.

CONCLUSIONS

AAA is more accurate than PBC for dose calculations in treating deep-seated tumor beyond high-density heterogeneity interface.

摘要

目的

众所周知，光子束放射治疗需要剂量计算算法。本研究的目的是测量和评估笔形束卷积（PBC）和各向异性分析算法（AAA）预测高密度异质性之外剂量的能力。

材料与方法

在Eclipse治疗计划系统（版本8.6.15）中创建了一个五层的非均匀体模。体模的每一层根据水（第一层或顶层）、空气（第二层）、水（第三层）、骨（第四层）和水（第五层或底层）介质进行设定。使用AAA和带有不均匀性校正的PBC，针对不同射野大小，用6兆伏（MV）光子束计算100个监测单位（MUs）在水（底层介质）中的深度剂量。然后制作了固体水、聚氯乙烯（PVC）和聚苯乙烯泡沫塑料的组合体模来模拟实际体模，并使用圆柱形电离室在高密度异质性界面之外的选定深度获取100 MUs的剂量。随后比较测量和计算得到的深度剂量。

结果

在所有测量深度处，AAA的值与测量结果的一致性更好。发现在靠近高密度异质性界面处，AAA（高达5.3%）和PBC（高达6.7%）的剂量高估更高，并且对于较大射野大小，剂量差异更明显。AAA和PBC在剂量估计上的误差可能是由于在包含低密度和高密度材料的异质介质中，对原射线衰减或侧向散射贡献的射束建模不当或两者的组合。

结论

在治疗高密度异质性界面之外的深部肿瘤时，AAA在剂量计算方面比PBC更准确。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9a98/3876628/15ee2098c58b/SAJC-2-26-g001.jpg

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各向异性解析算法和笔形束卷积算法在高密度非均匀性界面之外的剂量预测准确性。

Dose prediction accuracy of anisotropic analytical algorithm and pencil beam convolution algorithm beyond high density heterogeneity interface.

作者信息

机构信息

出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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